Highpod/Gigapod

Disclaimer: there are 1312 ways of doing this and this is only a recommendation based on experience, not a definitive guideline. Think about it, figure things out, trust your judgement, check with people around you, and if you feel unsafe don't do it. But in the end of the day this is not rocket science. Don't be intimidated!

What is a highpod and and what is it for?

A highpod is similar to a classic monopod . The only difference is that is in the crown of a tree (or in more rare cases like Lützerath, tied to another monopod). The process of building the highpod itself is already well-documented in the Danni-technical-zine, and this page is partly copied from there, and partly informed by the experience of people who build highpods in various other occupations, like Lützi, Fecher, or Banny.

A highpod has various use cases, including a potential function as a lightning rod, wind turbine above the forest, flag pole, or crow's nest. Most commonly though a highpod is used as a structure to significantly delay an eviction by having people climb on it. It is much harder to evict than a normal monopod, because it is much higher and harder to reach. Even after evicting it, it is quite hard to dismantle the pod itself, because of the fact that a trunk of several hundreds of kilos is standing upright in a crown of a tree, held up by ropes under tension.

"In the Danni Eviction we made the experience that Building crazy structures lifts activists spirits
and can create lots of struggle for those who try to get people off these structures. A Skymono can
be built with our basic climbing and building equipment, but can easily extend over the cannopy 10
meters, more is thinkable as well!"

Advantages of the highpod

from the technical zine:

None of the anchor-traverses can be cut before the whole area is free of persons, otherwise the
Skymono could collapse. So freedom of movement through all traverses is given for a longer period of time
Some standard cherrypickers cannot extend over 30 Meters, so bigger machines need to be
brought in and maybe the ground must be prepared for their stability.
It takes at least two cherrypickers to get activists down, and they must move to multiple
parking-positions if climbers are not within reach.
Climbing cops will not climb up the beam, as they can‘t trust it. So if cherrypickers can‘t
access, it is not evictable and becomes a safe space for activists and valuable material.
Every structure, that is above the anchor traverses, cannot be fully destroyed before the mono
is down, because everything that falls on these ropes is a risk for the whole structure. So
tree houses on the anchortrees can be reoccupied if the eviction isn‘t complete by dawn.
The more anchor traverses are used, the less movability is possible for the cherrypicker-basket.
Stacking smaller monopods over each other will create quite a web.
Most cherrypickers with a basket cannot exceed much over 50 Meters, so climbing cops might
hang from the hook of a crane, but not a technical unit required to open a lock-on at this height.
The total amount of material is quite low, only for pulling it up a decent pulley system and
around 15 activists are required. -super cheap!
You get a great view of the defended forest!

Required Material

main beam for the pod

The main beam for the pod should change in diameter as little as possible. more cone shaped pods mean weaker at the top and stronger at the bottom, so if you want them to be strong enough at the top, you will end up with very little weight at the bottom. In the technical zine it says ~20 meters long and minimum 20cm diameter where the anchor traverses are attached. This recommendation really depends on the use case: if the anchor tree of the of the pod is not that large, it would be irresponsible to load it with such a large pod. As the zine correctly notes: "A 20m beam 20-35 cm strong weights around 500 kg", which is not possible to rig in a lot of trees. If you are using a smaller pod and/or do not plan on climbing on the anchor traverses for some reason, it should safely be possible to go below 20cm in diameter where the traverses are attached.
Coniferous trees work well for this, because they usually grow fairly straight. Spruce, pine, or fir wood is also relatively light and flexible. Make sure to peel the beam before using it as it makes rigging easier and the beam more durable against insects, fungi and moisture. Removing braches is also strongly recommended for rigging.

anchor traverses/ guylines

At least 3 anchor traverses are necessary, more is better. From 5 on one traverse can fail without risking the pod falling over. Quality polypropylene rope of 14 mm is recommended, one 220m roll might be enough for 3-5 traverses.

pulley system (2:1 in the tree, 8:1 compound at the bottom)
- 100m static rope (minimum)
- 7 pulleys + carabiners (1 on the tree, 1 on the pod, 1 redirect at the stem, 4 in the 8:1)
- 2 loops of accessory cord (Raupe) for the 8:1
- 1 Distel (preferably thick aramide cord) + 1 mallion rapide for progress capture
- 4 heavy duty webbing slings (1 on the tree, 1 on the pod, 1 for the redirect, 1 in the 8:1)

The pulleys should preferably have ball-bearings, especially those that get the highest loads (anchor tree, pod, redirect). An alternative pulley system can also be built with a grip-puller winch (Greifzug) replacing the 8:1 at the bottom.

base of the pod

The pod can either rest on a small platform or hang from the anchor tree. For the small platform you need beams, crossbeams, planks, and 8mm poly as well as tree protection (as for any normal platform). You can also hang the pod from the anchor tree. In this case you would want three pieces of 14mm polyprop for the pod to hang in, as well as tree protection and a spacer between the tree and the pod. For the spacer, a round beam of 20cm in diameter will do. Make sure to carve a nudge into it so the pod can pivot on the spacer, but not break out to the sides.

How to build it

Bringing the pod

After preparing the tree to become a beautiful highpod, bring it to the tree. It might be too heavy to carry it, even with a lot of people. In this case you can either use a heavy duty trailer, roll the beam on smaller logs (think moving big pieces of stone for building pyramids), or (if you have a clear path) you can build a pulley system and just drag the pod.

Place the pod with the top end to the tree and with the bottom away from it, this way it does not need to be stabilised while pulling it up. If you do it the other way around, the pod will stand up on its bottom next to the tree and potentially swing uncontrollably.

Preparing the (anchor) trees

Once you found the main tree, you should also find 5 anchor trees for the traverses. The angle between these trees should be roughly equal so that all traverses exert a similar force on the pod when stabilising it. Ideally, this means you have a 72 degree angle between all the five anchor trees. In terms of distance, there are multiple considerations to be made: In terms of forces, an angle between 45 degrees and 60 degrees offers a good balance between stability and force on the anchor points, according to the ARRL Antenna book, section Antenna Support (a book on radio antennas supported by guylines). In practice you might want to make the angle a bit flatter, so it is easier to climb the anchor traverses. Make sure the expected forces on the anchor points in case of a traverse rescue do not become to high. You can calculate them here. Other than the forces, you might be limited be the trees available and the equipment you have. The longer the anchor traverses, the higher the likelihood building them will become a pain in the ass.

The main tree of the pod should obviously be very tall and healthy, with the attachment of the pod being sturdy and not above a V-shaped crotch, which might critically destabilise the tree. The anchor trees of the pod should also be healthy, but do not need to be as tall as the main tree. Look for any damage on the tree itself, but especially on the section that you would like to anchor your traverse on and the root base of the tree to minimise the risk of the branch snapping of or the tree being uprooted in a storm. Once you have found a suitable anchor point, you can mark it by installing tree protection there, to protect the tree from the polyprop of the anchor traverse.

In the main tree, you can either build the platform, or install the spacer if you hang the pod. During this step, you can also already install the pulley system

Installing the pulley system

At this point, you need to install the pulley system to lift the pod into the first position. To do this, find a good spot at least 3 or 4 meters above the point where the pod is supposed to end up. Here you can build the 2:1 with one end of the rope on the tree, a bight of the rope going down to the pod, where it can be put through a roll, and a second roll up at the top. At the ground you can build a redirect at the stem, with the 8:1 compound behind it. The whole pulley system should look something like this:

from the technical zine:
"The pulley system should be setup with the option to increase and decrease the strength quickly. If
there is a risk of being interrupted by cops while pulling it up, the brake (eddi/grigri) should be
installed off the ground, so the remaining pulley system on the ground can be broken down quickly.
Even a setup with a vertical pulley system worked out well. We have worked with 1:6 up to 1:30
Pulley systems, somewhere in between is fine with 10-15 people pulling. The heavy duty rolls and
carabiners should be installed at the first few turns, if they have ball-bearings that is even better.
Standard climbing rolls have a lot of friction under such heavy loads, so they should rather be used
in the second multiplication. A pulley system with multiplications (a pulley system pulling on a
pulley system) does not need as much equipment as normal one, but is a little bit more complicated
to build and use."

Note: Since then, multiple iterations of this system have been tried out. Using a GriGri as a brake did not work out well in Fecher, where the tension on the rope going through the GriGri became so high, that it became almost impossible to use the lever. Furthermore, using any other device than a GriGri, will decrease the efficiency of the pulley system more because the angle of the rope going through it deviates more from 180 degrees. When using a Distel as a progress capture using thick Distel (and maybe multiple of them for redundancy). There are reports of building highpods and completely smoking the accessory cord of the Distel in the process, giving the pulley system rope a glassy coating and rendering it unusable after.

Pulling up the pod (step 1)

from the technical zine:

"The beam is first pulled up till it is standing upright. It is less likely to get stuck under branches if
the sling is attached at the very tip in the beginning. If branches might come in the way, it is better
if a few people are up the tree to direct it and cut branches if necessary. Avoid to climb or stand
under the beam, as long it is only hanging in the pulley system, because the rope and the carabiners
come close to their limits here! A 30m rope should be attached to the bottom of the beam to allow
ground support to pull if it gets stuck. The beam can be pulled up all the way to the pulley system
and then needs to be secured to the tree temporarily.
After loosening the braking-device, the sling on the beam should be attached on the middle of
the beam. That is, due to the conical shape, just a bit over the center of gravity and therefore is still
save enough as the only attachment point. Now it can be pulled up until the end of the pulley system.
The beam should now be more or less pointing out of the crown already and therefore the
traverse ropes can be attached now. The ropes should be attached lower if the beam is to thin at the
top. If it is strong enough, attaching them at the top is better, because if a second beam should be
placed on top of the first one, it is more stable like this."

Note: Depending on your situation, it can also be very possible to just skip the first step and attach the pulley system in the middle of the pod immediately. Because of the conical shape, and the center of gravity being lower, it will just lift itself into an upright position in a safe and stable way. The most tricky part is not getting stuck in branches, but if there are not a lot of low branches, the attachment in the middle is fine and will save you one step in the process. At this point, a climbing rope should also be installed at the top of the pod to make it accessible more easily.

Attaching the anchor traverses

There are multiple ways of attaching the anchor traverses and they really depend on a) the distance between the pod and the anchor tree b) the height difference between pod and anchor tree after step 1 of pulling up and c) the amount of trees/ branches between the pod and the anchor tree. All methods involve first getting a small tagline across (throwline or fishing line usually). This one should be thin, light, and preferably hold quite some weight without snapping. You then pull a bit of a bigger line across (either 4mm or 8mm poly in our cases) and then finally pull across the 14mm poly for the anchor traverse. For all methods it is recommendable to have high vis vests on top of the pod and in the anchor trees to increase the chance of seeing each other, which can be difficult especially when it is not winter.

Method 1: throwing in

The first method is the easiest and often also the quickest. Sitting at the top of the pod, you take a throwbag and a throwline and throw into the anchor trees. There a person will fetch the throwline and you can start pulling over the next line.

Advantages: It is quick, easy, and requires little equipment. Most people also have experience throwing things.

Disadvantages: If the distance between pod and anchor tree is large, you are not really above the canopy yet, or the anchor tree is not significantly lower, it can become difficult or impossible to throw over the trees into the anchor tree.

One way of dealing with the disadvantages of this method is throwing in the middle between the two trees from both the pod and the anchor tree, having someone connect the throwlines and then pulling them tight. This might lead to a lot of branches being tangled in the throwlines.

Method 2: shooting in

The second method involves shooting the throwline across, either with a slingshot or using bow and arrow. For both of these methods, you can get more distance and with a bit of practice also very high accuracy. For the slingshot method, nuts (e.g. M20) that go on bolts together with a fishing line have been pretty good. For both methods, you need to make sure that the throwline can unravel extremely quickly without getting tangled. Both the spool of a fishing rod, or tightly wrapping the line around the neck of a watering can have worked well in the past. In this case it goes without saying that the anchor tree and the area around it should be clear of people. Shooting projectiles at living beings has proven to be deadly in the past. If you are up for it, you could also try to just use a fishing rod if you have experience with it.

Advantages: It is quick, not very difficult and gives you a larger radius that you can reach with adequate precision. Some people have experience shooting slingshots or bows. Coolness factor obviously is higher than plain old throwing.

Disadvantages: Some additional equipment and practice are needed.

~~method~~Method 3: flying in

In the last couple of years small drones have become widely available and somewhat affordable. For really long distances or situations in which very high precision is needed (e.g. flying a line between two highpods) it might be useful to use a drone. It is generally possible to carry up the drone, tie the line to it, start it from the hand and then fly over to the anchor tree. Another method that has proven to be successful is ty