Vision Aerial

Vision Aerial Drones and payloads for industrial applications including SAR, Methane gas detection, Wildfire detection, Inspection, and more.

65 minutes at sea level. 45+ at elevation.Those are honest numbers for operators flying in different terrains. Every dro...
05/07/2026

65 minutes at sea level. 45+ at elevation.

Those are honest numbers for operators flying in different terrains. Every drone platform will perform different at sea level vs elevation, and Vulcan SX still beats the competition regardless -- by more than 20 minutes in some cases.

When you're looking at spec sheets, ask where they measured flight time. Usually it's measured at sea level with no payload and in optimal conditions. Real missions aren't that. Vulcan SX is baselined at HQ in the mountains of Montana. If you don't understand the gap between the spec and the field, you could inadvertently be planning your mission inefficiently.

Have you flown Vulcan SX yet?
04/17/2026

Have you flown Vulcan SX yet?

If you fly any kind of vertical drone missions, you know the descent problem is a real thing. Vulcan SX has superior per...
04/16/2026

If you fly any kind of vertical drone missions, you know the descent problem is a real thing. Vulcan SX has superior performance when capturing data on the ascent AND descent, reducing your mission time.

Your launch site isn't always next to your truck. See the article linked in the comments for a full breakdown of what yo...
04/14/2026

Your launch site isn't always next to your truck.

See the article linked in the comments for a full breakdown of what you can expect when taking the Vulcan SX from case-open to wheels-down.

Not every mission has a convenient launch site, and honestly a lot of the most important ones don't.We have operators fl...
04/10/2026

Not every mission has a convenient launch site, and honestly a lot of the most important ones don't.

We have operators flying over 3+ miles out just to reach their target area. The reality of a lot of infrastructure inspection and environmental work is that you're dealing with remote terrain, limited access roads, and conditions that require you to get in on foot and make it work with what you carried in.

When you're that far out, forward cruise efficiency becomes a lot more relevant than it sounds on a spec sheet. A platform that isn't efficient in forward flight is spending battery just getting to the job, and that's battery you don't get back once you're there. For missions like that, the tricopter geometry isn't a design detail, it's the reason the mission is feasible in the first place.

Some of the most demanding deployments our operators run look a lot like what you see here. Getting there is only half of it, you still have a job to do once you arrive. That's the environment we build for.

04/09/2026

Always a good day for a demo!

We've been out in the field with the Vulcan SX lately, along with some of our partners like Sentera and Frontier Precision Unmanned and the response has been outstanding! More demos are coming all across the US. If you want to get eyes on it before you buy, let's talk!

Tricopters have a unique advantage (especially in vertical inspections) that comes directly from their Y-shaped frame, a...
04/06/2026

Tricopters have a unique advantage (especially in vertical inspections) that comes directly from their Y-shaped frame, and it's pretty simple once you see it!

Think about boats on a river. If you're following too closely behind another boat, you're fighting its wake the whole time. The water is choppy, you're getting tossed around, and it takes a lot more effort just to stay on course. Give yourself more distance, and everything smooths out. Rotors work in a similar way. When they're spaced farther apart, each one is pulling from cleaner air, instead of churning through the turbulence its neighbors are already kicking up.

On most multi-rotors, turbulence is manageable in forward flight (as we shared a couple of days ago, the Y-shape does provide superior cruise efficiency in forward flight). But in scenarios like vertical inspections, that turbulence really starts to matter. When a platform descends straight down, it's dropping back through the air it just pushed out of the way. Tighter rotor spacing means more of that disturbed air is getting caught up in the mix, and the platform has to work harder to compensate. That extra effort shows up as instability, and instability shows up in your data.

With more space between the rotors, a tricopter such as Vulcan SX doesn't have that problem to the same degree. Ascents and descents are just smoother, and when your descent is smooth, the footage you're collecting on the way down is actually worth keeping. For a lot of inspection workflows that means you're getting usable data in both directions on every pass, which is one less reason to go back and refly something you thought you already had.

04/03/2026

Flight time on a spec sheet and flight time on a real mission are two different numbers. Cruise efficiency is a big part of why.

Most drones spend the majority of their flight time moving forward, not hovering in place. How efficiently a drone handles that forward movement determines how much of your battery actually goes toward covering ground versus just staying airborne.

On a typical quadcopter, cruise efficiency sits around 6%. On our tricopter platforms such as the SwitchBlade-Elite and Vulcan SX, we are at about 21%. In practice, that translates to about 8 to 10 extra minutes of flight time per battery on a real mission. On a day with 12 to 15 flights, that could mean one less swap, one less interruption, or the difference between finishing a corridor and going back out tomorrow.

That gap between a typical quad and our drones comes down to the rotor placement. When a quad moves forward, the rear rotors are constantly flying through the turbulence the front ones create. It works, but it costs energy the whole time it is doing it.

A tricopter rear rotor pulls from clean air. Less drag on the system means more of each battery goes toward the mission instead of compensating for the airframe fighting itself.

Full article linked in the comments if you want to see how it plays out in the field.

Wanted to take a moment to highlight some of the engineering team behind the Vulcan SX. A lot goes into every platform b...
04/01/2026

Wanted to take a moment to highlight some of the engineering team behind the Vulcan SX. A lot goes into every platform before it ever leaves Bozeman, and this is the group making it happen. Appreciative doesn't really cover it, but it's a start. Thank you all for the work you do for us!

P.S.- check out those custom branded liveries 👀

Case opens. Battery clicks in. Payload mounts. Mission loads.And just like that, the clock is ticking.If you have flown ...
03/30/2026

Case opens. Battery clicks in. Payload mounts. Mission loads.

And just like that, the clock is ticking.

If you have flown industrial drone missions, you already know that flight time is not really about how long the drone can fly in perfect conditions. It is about how much of your mission you can finish before you have to land. Every second on the ground takes away from time you could be using in the air. It also can break your data continuity, burns through your day, and sometimes turns a one-day job into two.

We put together a full breakdown of what this looks like in practice, and why the Vulcan SX and SwitchBlade-Elite make the difference in flight time. Link in the comments if you want to read more.

Address

148 Village Center Lane
Bozeman, MT
59718

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Monday 9am - 5pm
Tuesday 9am - 5pm
Wednesday 9am - 5pm
Thursday 9am - 5pm
Friday 9am - 5pm

Telephone

406-333-1795

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