Aerial Survey and Photogrammetry with X5 & X7

We have been working to develop a well oiled solution for Aerial Survey and Photogrammetry over the last few moths. While there are a number of off the shelf solutions out there which produce great results, we are looking for something that will cover larger areas at a higher resolution. We started with the X5 as it could be hand launched and was a good platform that flew at higher airspeeds and could progress us into the X7. Here is some of our progress;





The X5 is running on APM 2.6 and has prove extremely reliable and stable. The camera used is a canon IXUS 132 running CHDK and shooting on an intervalometer script. The main purpose of the X5 was to learn about vibration dampenning and apature and ISO settigs to produce clear images. This took a significant amount of effort, however we are at the stage where 2 out of 3 images are photogrammetry quailty.





Our test baby has had a few hard landings (things were laid out a little neater when we started) . We are very excited about the recent interest and work being done on laser altimetry in recent months. We are also currently testing one of these devices as flying wings are extremely hard to land manually (especially when they are loaded up with gear). You can see the APM in the middle of the plane, 5.8GHz live video and 900MHz telemetry transmitters, and the IXUS 132.





We found the X5 reasonably easy to hand launch WITH A WELDING GLOVE (it will cut your hand to shreds - not if...when). You can see the camera poking out of the front of the plane. Images are good, however, to get the plane to navigate the survey grid well, it becomes a little twitchy which means that a high number of the images are not taken pointing straight down. Navigation accuracy (Nav Constants and Pitch and Roll constants)  v's image quality is a trade off. Others may have found the perfect solution..we haven't. (Yes we are investigating some of those gimbals). We found the ideal cruise speed with a 4S 5000mAh battery was about 12m/s and we are getting about 30 mins of flight time.







We have been using Agisoft Photoscan which works really well and appears to be more flexible than Pix4U. We have no surveyed ground control in the images, and we have no geotags in the photos as we were running an intervalometer script. However, it was great practice flying and processing, changing settings and trying again. You cans see that you lose images when the camera is not pointing down and loose some of the survey area. We have found that it is better to not use bad images and have gaps, rather than use them and distort the good data.



Once we had some confidence in what we were doing, we unleashed the BEAST!



First of all, the X7 is more streamlined than the X8, but doesn't have anywhere near the same room for hardware. If we were to do another flying wing, we would try the X8. We are running the X7 on Pixhawk and have a nikon J2 taking photos. The J2 is triggered from the Pixhawk via an infrared LED shutter controller.





The Nikon is snug in expanding foam with its lens fitting nicely into the camera hole in the X7.  With decent batteries and a big camera, you simply can't launch the X7 by hand, so we have built our own heavy duty catapult powered by 4 spear gun rubbers;



It took a while to settle down the nav and flight constants for the X7 but it flies beautifully once tuned. It cruises at around 15m/s and is far less twitchy than the X5. Photos are higher resolution and a lot sharper. We love it as an aerial photogrammetry platform, however landing is still an issue. As well, as we are only running 4s batteries, it's always touch and go as it comes off the end of the catapult. We are still playing with battery/motor/prop combos to get the optimised take off and duration.

Again, using Agisoft Photoscan, (with Geotags, but no ground control), the results were extremely pleasing;











We are still playing and tuning, but our focus at the moment is;

1) ground control -we are looking at a network gps system where you can drop a bunch of transceivers around the survey area and have them log back to a central PC where only one of the transceivers is located in a surveyed location.

2) AUTO LANDING....WOULDN'T IT BE NICE !

3) We have purchased a 757 Ranger to try slower speeds, but significantly longer endurance to see if it improves the sharpness of the images.



Anyway, this is what we are up to. Would love to hear comments from anyone else out there chasing photogrammetry.

FONTE:Aerial Survey and Photogrammetry with X5 & X7 - DIY Drones

Solid State, High Current Isolation Switch - New Product

 

Using state of the art devices and PCB design we've made a reasonably small and lightweight isolation switch capable of switching high current batteries directly. Advantages we think this offers:

- Isolation of all electronics on the ground for safety
- No connection pitting compared with using large switch based isolation solutions
- Minimization of EMC radiation as connectors are plugged in and out
- External electronics can be used to switch the power system on / off
- Auto Off in case of aircraft incident. A pull out cable can switch power off automatically
- Simple very low current toggle switch can be mounted more or less anywhere for easy power isolation

Isolation (switching) normally happens when very low current is drawn, however the switch still needs to pass the full current when ON. This switch will happily pass through the heavy currents required by many large multi-copters and electric aircraft. (70A continuous. Much higher for few seconds bursts).

Some testing at 140A:


We think this is a unique solution on the market today, please do tell us if this is not the case.



Please come to see more details on our site:
Bluelight Technologies

fonte:Solid State, High Current Isolation Switch - New Product - DIY Drones

For inspiration: Transport frame for the skywalker 1900 and budget antenna mast

• Posted by Jakob M. L. Hansen on June 13, 2014 at 12:05am
• View Blog

As some of you might agree on, the transportation of a foam airframe can be a pain when transporting it on the backseat or trunk with the constant fear of braking and turing too quickly I finally got enough motivation to build myself a transport crate and a "Swim & Fun" pool telescopic budget antenna mast with an integrated usb cable. I will just throw the results here for inspiration:)



The crate/frame/box is made of wooden sticks and the fittings such as handles and corners is bought from dj flightcase accessory dealers online. The soft foam holds everything in place even if the crate is shaken wildly. (no more oldie driving to the field).

The design as seen above also enables complete assembly while the drone is firmly placed. Making things alot easier.





The antenna mast consist of a "Swim & Fun" telescopic pool cleaning rod, a 5meter usb extender integrated in the tube and a wooden spike bolted to the bottom. (around 38$ worth of materials) 1,6meter when collapsed and 3,6meter when extended. It feels quite sturdy, especially at that price.







The 3dr radio module is fastened at the very top with a homemade dipole attached directly to it. the ftdi usb plug and the usb extender is placed inside the top tube (perfect fit)

I hope someone will find this post useful for inspiration when they get too stressed out when transporting and assembling their fragile drone on the field or someone who drools over the multi-grand portable antenna mast solutions on google:)

fonte:For inspiration: Transport frame for the skywalker 1900 and budget antenna mast - DIY Drones

RMotion makes posible one man film crew with Alexmos contoller

RMotion makes posible one man film crew with Alexmos contoller













The application allows to scripting control of the BaseCam controllers. Look at the video to understand how aplication works.

RMotion uses own scripting language based on the JSON syntax. The application is under development and is not a commercial.

code can be found here:



https://sites.google.com/site/rmotiongmb/

controllers & Brushless Gimbal can be found here:

http://offthegridwater.ca





fonte:RMotion makes posible one man film crew with Alexmos contoller - DIY Drones

Navio: autopilot shield for Raspberry Pi successfully funded!

 

 

Hey guys!

 

With your help we have successfully funded the Navio campaign and reached three stretch goals. Everyone who pledged for Navio or Navio Raw board on Indiegogo will additionally get:

• GPS\GLONASS antenna
• Pack of DF13 wires
• Onboard FRAM chip

 

We also plan to develop and release a special case for Navio that can be 3D printed and used to protect it.

 

Navio campaign is still active and you can get one for yourself on our Indiegogo page.

 

Navio was primarily designed to be used with Raspberry Pi, but there are a couple of alternative boards that duplicate the form-factor or Raspberry Pi and should also be compatible with Navio. These boards are:

 

Banana Pi

Created by Lemaker.org, the Banana Pi duplicates the layout and footprint of the Raspberry Pi and packs more power and connectivity. One of the downsides is that 26-pin header was moved closer to the RCA connector and to fit Navio properly you will have to desolder it. Actually, we remove RCA connector from Raspberries anyway to reduce the size.

 

SOC: Allwinner A20 Cortex-A7 Dual-Core clocked to 1GHz

GPU: ARM Mali400MP2

RAM: 1GB

Ports: 1000Ethernet, SATA, HDMI, LVDS, CSI, 2xUSB host, 3.5 audio

Features: IR-receiver, CAN, OTG connector, Microphone, Power switch

HummingBoard

Developed by Solid-Run, the creator of the CuBox product line with which the HummingBoard is similar in features. Design and layout are also the same as in Raspberry Pi, but even more powerful with quad-core processor and 2GB of memory.

 

SOC: Quad-core Cortex-A9 Freescale i.MX6 clocked to 1GHz

GPU: Vivante GC2000

RAM: 2GB

Ports: 1000Ethernet, mSATA, HDMI, LVDS, CSI, mini-PCI-E, 2xUSB host, 3.5 audio

Features: Wi-Fi, Bluetooth, FlexCAN, Real-time clock, IR-receiver, SPDIF out

We are awaiting arrival of these boards and will post more information as soon as we test them.

 

More:

Navio on Indiegogo

Emlid blog

Banana Pi

HummingBoard

fonte:Navio: autopilot shield for Raspberry Pi successfully funded! - DIY Drones

My setup to use droidplanner

I am designing this TX mod to use Droidplanner with big phones or tablets. I am planning to use for photogrametry with multicopters and planes.



I use mavlink telemetry through gitsly/openLRSng (https://github.com/gitsly/openLRSng)

I think it is a great solution because it is only one antenna for controls and telemetry, very simple and clean solution.



Telemetry stream through openLRSng is slow (19200bps maximum) than I've tried it works perfectly except because droidplanner failed to load the parameter list probably due a timeout, All the rest seems to work perfectly.

I connect my Note with 20cm OTG cable, i have build a custom module cover to fit into a FTDI adapter:





Droidplanner seems well made software, very quick, very intuitive.

My sincere congratulations to droidplanner team





Hope you like!!!

jlcortex

quaternium.es/

fonteMy setup to use droidplanner - DIY Drones

Quanum DIY FPV Goggle Set with Monitor (KIT) - DIY Drones

Quanum DIY FPV Goggle Set with Monitor (KIT)










 think a nice goggle set for beginners, the Quanum DIY FPV goggle set with monitor. Not with dual glasses, but a single display that shows the live feed from your video/transmitter set (not included). The resolution is 480p (640x480 pixels) and you can use it with one of the 3 lenses it comes it, whichever fits you best. The goggles can be switched between 16:9 or 4:3 aspect ratios. The molded housing is made from EPP foam allowing you to carve and adjust the fit just right to your face and finishing it off with foam strips for a light tight seal.







Specifications:

Monitor screen: NON-Blue screen custom TFT LCD

Screen size: 4.3in (6:9 or 4:3 switchable)

Format: PAL/NTSC supported

Supply voltage: 7~13V

Resolution: 480p

Fresnel lens: 3X and 4X included

Size: 140x95x120mm

Weight: 195g



Please note that a battery to power the goggles is not included and you have to use your own video transmitter/receiver set.



Available for US$ 29.99, available from Hobbyking here: http://hobbyking.com/hobbyking/store/uh_viewItem.asp?idProduct=5370...





fonte:Quanum DIY FPV Goggle Set with Monitor (KIT) - DIY Drones