Sky Drone FPV 2 - Long Range 1080p FPV Video + Command & Control - now available for USD 299.- - Blogs

Optimizing our supply chain allowed us to make our Sky Drone FPV 2 system available at a dramatically reduced price, starting from USD 299.- for the Europe/Asia version and 329.- for the US/Verizon version. The previous price was 699.-.

Sky Drone FPV 2 is a HD camera system for drones that transmits over the LTE network providing an unlimited range and low latency video+data link.

Digital High Definition Video

The Sky Drone FPV 2 system uses a high resolution camera with a wide dynamic range. It provides you with an amazing live video feed of up to 1080p at 30fps.

Telemetry and Command & Control Link

Besides the video link, Sky Drone FPV 2 provides a bidirectional data link between your drone and your Ground Control Station. This can be used to visualized telemetry data and/or control the drone. We support the MAVLink protocol as well as any generic protocol that interfaces via RS232/UART.

Unlimited Range

By using existing cellular networks, the Sky Drone FPV system provides you with virtually unlimited range. The only requirement is cell tower coverage. The system is optimized for the 4G/LTE network to provide best video quality and lowest latency. It does however fall back to 3G or even 2.5G networks by automatically adjusting video parameters without interrupting the stream.

Low latency

By using our own highly optimized video processing pipeline, the system is designed for lowest latency video from scratch. The typical end-to-end latency is less than 150ms.

Groundstation Software

The Groundstation to receive Video from the Sky Drone FPV 2 unit runs on Windows and Linux with version for MacOS, Android and iOS in the pipeline to be released in Q2 2017.

Interchangeable Lenses

The Sky Drone FPV 2 system is using high quality lenses that are interchangeable. Instead of locking you to a specific lens, you have the freedom to change the lens for specific use cases (wide angle lens for best overview or narrow FOV lenses for artistic flights with less distortion).

Security

The video stream and meta data are fully end-to-end encrypted making it impossible for third parties to eavesdrop the transmission or interfere with it. Rather than reinventing the wheel, we rely on open and proven standards including Datagram Transport Layer Security (DTLS) and Secure Real-Time Protocol (SRTP) using AES128.

For more information see https://www.skydrone.aero/products/sky-drone-fpv

@Marc I'd be confident that any 1080p30 h.264 native (ie 2mp USB camera with onboard h.264) UVC camera would have similar performance, and I doubt that the software would even know it was a different camera. A higher resolution camera, even with onboard h.264, would have a little more latency that the 2mp camera (which doesn't need to downscale). The USB bus (SkyDrone please correct me if you aren't using USB, but it appears you are) would generate some EMI, but more likely to effect a telemetry radio than the LTE modem. USB3 is worse than USB2, so if you need UHD I'd recommend looking at GigE rather than USB3. MUCH less EMI, even using the same camera. From my experience with C1, XU, XU3, XU4, Odroid's are pretty bad for EMI in general, so if this uses one as its brain I hope they shield it.

@SkyDrone: the "typical" latency you claim (150ms), can you provide the test conditions? Is this figure true only when both Rx and Tx are on the same network, or can you achieve this across LTE networks? I think it is important, and should be explicit in your sales pitch, as a lot of people will have existing devices on particular networks that will differ from the networks you seem to be aligned to. For instance, I'm in Australia and use Telstra for my phone and mobile hotspot, but Optus for my airborne LTE modem. As these are under different NAT's, establishing a peer to peer pipe isn't possible below the NAT, only above. To articulate a little, you have a server (AWS or the like, whatever you can access) matching the two devices (endpoints), if these are different ports on the same NAT then once matched the communication occurs endpoint1<->endpoint2, below the NAT == fast/low latency. If endpoints are on different NAT's, you can't bypass the NAT. Matched communication occurs between endpoint1<->NAT1<->NAT2<->endpoint2 = not quite as fast. Do you have latency figures for both configurations?

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Comments

Marc Dornan April 24, 2017 at 5:18pm

Some truth to this. Few of us have the time to mess with this. Can you report back.
Kevin Klemens April 24, 2017 at 4:18pm

I ended up ordering one so hopefully I can report how it is in a few days. Yes, I know full well what the hardware is and that it's COTS. The problem that I've had is that I've been looking and asking for a 4G connection for months and there are absolutely NO tutorials on the subject. Everyone claims that setting up a 4G connection is easy, but nobody is willing to share how they do it...so I have to resort to something like this. Yes, there is the UAV matrix solution, but that requires two 4G modems. At least I already have a Verizon 620L modem on my Verizon plan so I was able to knock off a couple bucks.

Is this an ideal solution? Not at the moment, but I'll use it until something better comes along. I'd rather have a system that connects to an AWS server with a static IP so I can login from any computer, but this will have to do until something gets integrated with APSync.
Auturgy April 24, 2017 at 2:48pm

The spec sheet I linked above mentions configuration over wifi, so combined with the physical layout I'd say this is almost certainly a Pi3. Good news for Mark, as lighter cases are readily available. I'm curious as to why they've chosen a USB camera over CSI/MIPI, for the reasons John stated above, but at native resolution it probably doesn't matter.
All in all, you're paying $100 for hardware, and $200 for convenience. Apologies if I sounded negative, it just irks me when people/companies try to hide the nature of a product with spin. If they'd just said "Pi 3 optimised for LTE video streaming using an external UDP holepunch server" I'd have said "cool".
Marc Dornan April 24, 2017 at 1:03pm

You may be correct. At 299 just to have a mavlink friendly no-fiddle solution it is probably not a bad deal. I would like to be able to use multiple cameras and switch them though. Lighter enclosures would also be needed.
Auturgy April 24, 2017 at 11:54am

https://s3.amazonaws.com/aero.skydrone/downloads/skydrone-fpv2_comp...

https://s3.amazonaws.com/aero.skydrone/downloads/skydrone-fpv2_component-overview.pdf
Auturgy April 24, 2017 at 2:40am

@John, I think you overestimate but honestly hope you are right. My guess based on specs, images, and sale pitch deflections is that you'll find that this is a readily available single board computer with USB camera, in a nice black case, with a proprietary/non GPL script managing the discovery/handshake. @skydrone - details/corrections welcome.
Developer

John Arne Birkeland April 24, 2017 at 2:12am

@Auturgy, reading between the lines I figure they use some variations of an LVDS cable with raw data from the camera, and do all the video encoding on the 'motherboard'. The problem with having native encoding in the camera (Logitech 920 etc.) is that you cannot control and adapt the encoding bandwidth fast enough for variations in transmission conditions. And also since they have a similar version with HDMI input, they must do video encoding in the link box.
Auturgy April 23, 2017 at 7:17pm

@Marc I'd be confident that any 1080p30 h.264 native (ie 2mp USB camera with onboard h.264) UVC camera would have similar performance, and I doubt that the software would even know it was a different camera. A higher resolution camera, even with onboard h.264, would have a little more latency that the 2mp camera (which doesn't need to downscale). The USB bus (SkyDrone please correct me if you aren't using USB, but it appears you are) would generate some EMI, but more likely to effect a telemetry radio than the LTE modem. USB3 is worse than USB2, so if you need UHD I'd recommend looking at GigE rather than USB3. MUCH less EMI, even using the same camera. From my experience with C1, XU, XU3, XU4, Odroid's are pretty bad for EMI in general, so if this uses one as its brain I hope they shield it.

@SkyDrone: the "typical" latency you claim (150ms), can you provide the test conditions? Is this figure true only when both Rx and Tx are on the same network, or can you achieve this across LTE networks? I think it is important, and should be explicit in your sales pitch, as a lot of people will have existing devices on particular networks that will differ from the networks you seem to be aligned to. For instance, I'm in Australia and use Telstra for my phone and mobile hotspot, but Optus for my airborne LTE modem. As these are under different NAT's, establishing a peer to peer pipe isn't possible below the NAT, only above. To articulate a little, you have a server (AWS or the like, whatever you can access) matching the two devices (endpoints), if these are different ports on the same NAT then once matched the communication occurs endpoint1<->endpoint2, below the NAT == fast/low latency. If endpoints are on different NAT's, you can't bypass the NAT. Matched communication occurs between endpoint1<->NAT1<->NAT2<->endpoint2 = not quite as fast. Do you have latency figures for both configurations?
SkyDrone.aero April 23, 2017 at 6:06pm

@Marc The system does not have an analog output. Also we have a highly integrated video processing pipeline to guarantee low latency. That's why you can't change the camera. We do have a different product called "Sky Drone Link" that offers HDMI input though.
Marc Dornan April 23, 2017 at 5:43pm

I mean cameras are often noisy. Is there any way to get analog video out of you box? Or can you feed other cameras in?

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