Hi Rohan,
I have little experience in farming, but your description of the
environment sounds a lot like the conditions in industrial plants,
warehouses, etc.
If you haven't already, it may be worth researching the history of the
MAP/TOP efforts in the 80s. These were systems developed by industrial
players specifically for use in industrial situations, such as
manufacturing plants, warehouses, distribution centers, et al where
there are lots of things that block or interfere with signals. See,
for example, https://en.wikipedia.org/wiki/Manufacturing_Automation_Protocol
MAP/TOP died out as Ethernet became the dominant LAN technology and the
market for MAP/TOP devices never developed. But there may be some
lessons learned then that would be helpful to you today.
Jack Haverty
On 11/13/23 15:31, Rohan M via Nnagain wrote:
Hi All,
I am the Head of IT and Engineering for Flavorite, one of the largest
hydroponic glasshouse producers in the southern hemisphere with ~100ha
under glass. We predominantly focus on tomatoes, capsicums, cucumbers
and blueberries (the latter are not glasshouse grown). Glasshouse
production is typically 60% more water efficient than conventional
cropping, or said another way, it uses 1/3 of the water of
conventional cropping.
We have several different environments that span large distances and
use a myriad of different technologies to support them.
In the glasshouses our biggest challenge is getting a signal through a
glass, a metal frame, and thick foliage which is >90% water. Foliage
is typically very dense and layered which creates a perfect sink for
the majority of signals. (eg
https://investgippsland.com.au/wp-content/uploads/2019/05/Flavorite-2-e1574123141523-756x350.jpg
)
Glasshouse environments:
In the glasshouse we have long spans (varies but up to 400m/1312ft) of
centre paths that are up to 4m across and concreted (eg
https://www.atophort.com/files/News/202110/tomatoes-in-greenhouse.jpg )
The typical temperatures in the glasshouses ranges from about
20C (68F) to 45C (113F) - more in direct sun during summer, with high
humidity at times, this is a barrier for a lot of devices, as it will
push a processor idling at 50C across the 95C threshold and cause it
to crash.
Primary communication there is via wifi, we often use 3 unifi points
(Flex HD/U6 mesh) to cover the centre path, but we are trialling the
unifi Mesh Pro AC points as they have shown to cover larger areas.
Wifi (or any signal) access down rows more than about 5m off the
centre path generally is poor, but with points up high enough we have
enough to keep the fresnel zones clear around the APs. One problem
here is that we have to mount the APs on steel uprights, which may or
may not have hydronic heating tubes nearby.
Wireless communication for moisture sensing is done by proprietary
systems, but they typically use LoraWan, with a gateway to the main
network. These have poor propagation past 50m in these environments
due to the wavelengths and the foliage, so sometimes do not register
correctly.
Even though there is a 5g mobile repeater nearby (~1km away), getting
reception on any mobile network in a glasshouse is generally nigh
impossible.
Warehouse/Packing environments:
Warehouse/Packing environments have a large amount of industrial
equipment for grading, packing, weighing and sorting fruit for
delivery and logistics. These environments typically have a lot of
metal on the general work floor which reflects or grounds signals. The
walls and ceiling are made of aluminum alloy which sandwiches
insulation foam (as the whole area is temperature controlled), there
is heavy cement reinforced with rebar fire walls between major
sections, and a cement/concrete floor. The whole structure acts as a
Faraday's cage, so there are no signals going outside, and inside, as
mentioned, there is a lot of industrial equipment.
Size of these environments approximates the same as glasshouses - 600m
x 300m typically.
In this environment we have approximately 60-80 wifi devices, a lot of
people who use "wi-fi calling" on mobile devices. 5g signal
propagation in such areas is non-existent, especially in rural areas.
Boosters have been tried, and failed, many times, with calls dropping
out regularly.
Getting any signal propagation across the environment is a challenge.
Typically how we handle this is by ceiling mounted APs, but we find
that without AP based SQM these units experience bufferbloat, which
causes calls to drop out, or pause. The typical farmer mentality in
these instances is to put in a bigger AP, but this has not solved the
problem (even with the enormous stadium type units). The next stage
here is to try more APs in strategic locations.
It should be noted that in some such environments there are multiple
very large, 16kva (or above) pumps which have large magnetic fields
despite isolation etc. The way we've managed that is by having more
density of points in those areas, which improves things but doesn't
solve them.
Blueberry fields:
Blueberry fields are similar to glasshouses, plants grow up to 1.7m
(5ft6in) and have dense foliage, similar layout to inside of a
glasshouse, however larger areas (500m/1640ft square is typical) with
varying degrees of elevation depending on the site. Getting a signal
here is also a challenge. So far we have deployed Unifi Mesh Pro AC
units at the top of treated pine poles around 2M up, three of these
units allow long distance wifi down the main paths (circa 350-400m
range each), and approximately 10m/32ft into the blueberry rows.
Typical applications here are tablets and phones for voip. Density of
client devices is much lower than the other environments, with
20 clients typically per field at any time.
In summary - 4g/5g in these environments is of limited use due to lack
of ability to foster signal propagation and the fact that these
locations are rural, which means infrastructure typically is poor in
the area.
Cheers
Rohan M
On Mon, Nov 13, 2023 at 11:44 PM Dave Taht <dave.t...@gmail.com> wrote:
(I am hoping others on this list with real-world AG experience can
chime in? I enjoy realworld stories about present solutions and pain
points[2])
I have often been dubious of the 5g hope to dominate any major
component of a smart ag architecture except perhaps FWA, (where
starlink is poised and people also want to run fiber) to give it a
good run for the money- 5g chips are too big, too hard to power, and
too complex, and come with a monthly billing model and other
centralized requirements that make organic evolution and solid support
in remote environments dicy and expensive.
I freely concede that I may be wrong, that with sufficient subsidies,
we will end up hanging the equivalent of a cellphone off of every
suitably large piece of gear and ship all the data up to the cloud,
rather than pre-process locally. Certainly the benefits of gps and
drones are being shown every day, along with satellite weather and
other forms of satellite analysis. [1]
But the 5g sensor market? No. Nowadays smart sensors are easily
constructed out of wifi devices such as these which cost 5 dollars or
less:
https://www.amazon.com/DORHEA-Development-Microcontroller-NodeMCU-32S-ESP-WROOM-32/dp/B086MJGFVV/ref=asc_df_B086MJGFVV/
And the more meshy LoRA stuff now has much better range (4 miles), at
low complexity and power also.
then there are things like amazon sidewalk:
https://www.amazon.com/Amazon-Sidewalk/b?ie=UTF8&node=21328123011
<https://www.amazon.com/Amazon-Sidewalk/b?ie=UTF8&node=21328123011>
And airtags.
[1] On the other hand rigorous analysis of the food we produce has
recently discovered a marked decline in the percentage of nutritious
minerals over the past 100 years. Please see:
https://www.tandfonline.com/doi/full/10.1080/09637486.2021.1981831
How smart is that?
[2] Massive subsidy and diversion of river resources to the water
hungry california almond industry during the last 7 years of drought
led to the cancellation of the salmon fishing season last year.
You should hear some of the invective that I used to hear aimed at
"the f-ing vegetarians" along the docks I frequent in half moon bay.
That I used to hear, anyway, The docks are eerily silent, the workers
at other jobs, the boats not going out for anything except crab and
squid.
How smart is that? The California water table is a disaster, too. I
vastly prefer salmon to almonds personally....
I guess a meta point is easily gathering tactical data is one thing,
sharing it sanely another, deciding on how to use it strategically,
another.
--
:( My old R&D campus is up for sale: https://tinyurl.com/yurtlab
Dave Täht CSO, LibreQos
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