DJI T600 Inspire - Hobbyking

 

http://www.hobbyking.com/hobbyking/store/__75615___PRE_ORDER_DJI_T6...



This DJI mutirotor is going to flood the market and with a price tag of $2,899.00 will hopefully keep it out of the beginners hands.







Features:

• Completely READY-TO-FLY

• Innovative transforming design for 360° aerial photography / video

• Leading edge camera for 4K video & 12 megapixel photos

• Modular camera gimbal design for easy transportation & upgradability

• 720p HD Live video output

• Support dual transmission system – photographer & Flyer can control the gimbal & model separately (A extra transmitter is required)

• Optical Flow technology combined with sonic waves rise indoor flying stability to a new level

• Intelligent battery with advanced algorithms – It can calculate the distance of your Inspire 1 from you and keep tracking your battery status, so you can manage the flight time better

• Specially design transmitter to fit FPV needs - Dedicated buttons for photo and video capture, a gimbal control dial, an integrated rechargeable battery, HDMI and USB port allowing you to connect mobile devices or compatible screens.

• 1-click take-off & landing

• Return-to-Home function

• Smartphone controllable

Specification:

DJI Inspire

Weight (Incl. Battery): 2935g

Hovering Accuracy (GPS mode): 0.5m(Vertical), 2.5m (Horizontal)

Max Angular Velocity: 300°/s(Pitch), 150°/s (Yaw)

Max Tilt Angle: 35°

Max Ascent Speed: 5m/s

Max Descent Speed: 4m/s

Max Speed: 22m/s (ATTI mode, no wind)

Max Flight Altitude: 4500m

Max Wind Speed Resistance: 10m/s

Max Flight Time: Appro. 18 minutes

Motor Model: DJI 3510

Propeller Model: DJI 1345

Indoor Hovering: Enabled(Default)

Diagonal Distance: 559 to 581mm

Dimensions: 438x451x301mm

Gimbal

Model: ZENMUSE X3

Output Power (with camera): 9W(Static), 11W(In motion)

Operating Current: 750mA(Static), 900mA(In motion)

Angular Vibration Range: ±0.03°

Mounting: Detachable

Controllable Range: -90° to +30°(Pitch), ±320°(Pan)

Mechanical Range: -125° to +45°(Pitch), ±330°(Pan)

Max Controllable Speed: 120°/s(Pitch), 180°/s(Pan)

Camera

Model: FC350

Resolution: 12.0MP

FOV (Field of View): 94°

CMOS: Sony EXMOR 1/2.3”

Lens:

f/2.8 (20mm equivalent)
9 Elements in 9 groups

Aspherical lens element

Anti-distortion filter

UV filter

Still Photography Modes:

Single shoot

Burst shooting (BURST: 3/5/7 frames, AEB: 3 or 5 bracketed frames at 0.7EV Bias)

Time lapse

HD Video Recording Modes:

UHD (4K): 4096x2160p24/25, 3840x2160p24/25/30

FHD: 1920x1080p24/25/30/48/50/60

HD: 1280x720p24/25/30/48/50/60

Max Bitrate of Video Storage: 60Mbps

Supported File Formats: FAT32/exFAT

Photo: JPEG, DNG

Video: MP4/MOV (MPEG-4 AVC/H.264)

Supported SD Card Types:

SD/SDHC/SDXC Micro SD

Max capacity: 64GB, Class 10 or above

Transmitter

Operating Frequency:

5.728GHz~5.850 GHz (Transmitter to Transmitter)

2.400GHz~2.483GHz (Transmitter to radio)

EIRP: 13dBm@5.8G, 20dBm@2.4G

Video Output Port: USB, HDMI

Dual User Capability: Host-and-Slave

Output Power: 9W

Battery: 6000mAh LiPo 2S

Battery

Capacity: 4500mAh

Voltage: 22.2V / 6cell

Energy: 99.9Wh

Net Weight: 570g

Vision Positioning

Velocity Range: Below 8m/s (2m above ground)

Altitude Range: 5cm-500cm

Operating Environment: Brightly lit (lux >15) patterned surfaces

Operating Range: 0-250cm

Included:

Inspire 1 Quadcopter

Transmitter

ZENMUSE X3 Gimbal and Camera

Charger

Smartphone Holder

4 x Spare Props

$2,899.00

FONTE:DJI T600 Inspire - Hobbyking - DIY Drones

RPAS Logger Plus now supports exports and syncing with RL Enterprise suite

 

The 2nd app - RPAS Logger Plus - in our RPAS Logger Enterprise suite now enables you to export your logs to create reports as you wish. It is also ready to sync your data with the RPAS Logger Enterprise website. The RPAS Logger Plus app is US$9.99 and the RPAS Logger Lite is Free.

We have developed a suite of mobile and cloud / desktop applications on Android, iOS app and RPAS / sUAS / UAV / Drone Job Management website that integrates with your mobile devices called RPAS Logger (Remotely Piloted Aircraft System = RPAS )

Our iOS app is submitted to Apple and will be available next week. Once the iOS app is available we will officially launch the Enterprise website which is a breakthrough in managing all potential government compliance issues. It is designed to streamline your official Australian CASA application and built according to the latest ICAO requirement which is the standard that the FAA and most Civil Aviation Authorities world wide are aligning their drone laws too.

RPAS Logger EnterpriseThis is the flagship version of RPAS Logger. Unlike the Lite and Pro version, RPAS Logger Enterprise is a cloud-based solution. All Data is kept in the web application and your mobile devices will now become access points that you will be able to use on and off line to collect and log data. You can use the Android / iOS apps when you don't have internet access and sync it up when you connect again. 

The apps include a bar code scanning feature for battery / maintenance management and our latest (most requested feature) allows you to use your GPS location on your mobile device to show you the nearest airport / helipad etc to your current location which will help in completing your Risk Assessment for each job or flight. www.rpaslogger.com 

It is oriented towards a commercial operation or hobby clubs. It will allow you to create jobs for customers, assign equipment and personnel to different jobs, manage area approvals and risk assessments, manage maintenance requirements and inventory.

Modules include:
Basic Module – everything required to create jobs, manage airframes, batteries and role equipment usage, manage pilots (including type endorsements and certifications) and produce comprehensive reports.

• Maintenance Module – Keep maintenance logs for all equipment and manage your inventory - including shelf life and minimum quantity reporting.
• UOC Manuals – online management of your flight, operations and maintenance manuals. Easily update your entire documentation suite with any changes that you make to your fleet, role equipment or operational parameters.

We will appreciate any feedback or request for new features. Rest assured, we have a long list of upcoming features but use your comments to help prioritise our updates. 

fonte:RPAS Logger Plus now supports exports and syncing with RL Enterprise suite - DIY Drones

Neruromorphic chip "learns" how to fly

 

From Technology Review:

There isn’t much space between your ears, but what’s in there can do many things that a computer of the same size never could. Your brain is also vastly more energy efficient at interpreting the world visually or understanding speech than any computer system.

That’s why academic and corporate labs have been experimenting with “neuromorphic” chips modeled on features seen in brains. These chips have networks of “neurons” that communicate in spikes of electricity (see “Thinking in Silicon”). They can be significantly more energy-efficient than conventional chips, and some can even automatically reprogram themselves to learn new skills.

Now a neuromorphic chip has been untethered from the lab bench, and tested in a tiny drone aircraft that weighs less than 100 grams.

In the experiment, the prototype chip, with 576 silicon neurons, took in data from the aircraft’s optical, ultrasound, and infrared sensors as it flew between three different rooms.

The first time the drone was flown into each room, the unique pattern of incoming sensor data from the walls, furniture, and other objects caused a pattern of electrical activity in the neurons that the chip had never experienced before. That triggered it to report that it was in a new space, and also caused the ways its neurons connected to one another to change, in a crude mimic of learning in a real brain. Those changes meant that next time the craft entered the same room, it recognized it and signaled as such.

The chip involved is far from ready for practical deployment, but the test offers empirical support for the ideas that have motivated research into neuromorphic chips, says Narayan Srinivasa, who leads HRL’s Center for Neural and Emergent Systems. “This shows it is possible to do learning literally on the fly, while under very strict size, weight, and power constraints,” he says.

The drone, custom built for the test by drone-maker company Aerovironment, based in Monrovia, California, is six inches square, 1.5 inches high, and weighs only 93 grams, including the battery. HRL’s chip made up just 18 grams of the craft’s weight, and used only 50 milliwatts of power. That wouldn’t be nearly enough for a conventional computer to run software that could learn to recognize rooms, says Srinivasa.

The flight test was a challenge set by the Pentagon research agency DARPA as part of a project under which it has funded HRL, IBM, and others to work on neuromorphic chips. One motivation is the hope that neuromorphic chips might make it possible for military drones to make sense of video and sensor data for themselves, instead of always having to beam it down to earth for analysis by computers or humans.

Prototypes made under DARPA’s program—like HRL’s—have delivered promising results, but much work remains before such technology can perform useful work, says Vishal Saxena, an assistant professor working on neuromorphic chips at Boise State University. “The biggest challenge is identifying what the applications will be and developing robust algorithms,” he says.

Researchers also face a chicken-and-egg scenario, with chips being developed without much idea of what algorithms they will run and algorithms being written without a firm idea of what chip designs will become established. At the same time, neuroscientists are still discovering new things about how networks of real brain cells work on information. “There’s a lot of work to be done collectively between circuit and algorithm experts and the neuroscience community,” says Saxena.

fonte:Neruromorphic chip "learns" how to fly - DIY Drones

NIXIE - Wrist Wearable Quad - Intel Make it Wearable $500,000 Contest Winner - DIY Drones

NIXIE - Wrist Wearable Quad - Intel Make it Wearable $500,000 Contest Winner

• Wear A Spy Drone

From Wired, "Called Nixie, this diminutive drone weighs less than a tenth of a pound, but can capture HD images and sync with a smartphone"....In development phase, very nice concept.

fonte:NIXIE - Wrist Wearable Quad - Intel Make it Wearable $500,000 Contest Winner - DIY Drones

                                                  

3D-printed UAV now sports ducted fan motors

 

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It may look like a flying manta ray, but this is actually the University of Sheffield's latest UAV

Image Gallery (2 images)

Back in April, we first heard about a 3D-printed UAV airframe that could be fabricated within 24 hours. Created by a Boeing-assisted team at the University of Sheffield's Advanced Manufacturing Research Center, it was a gliding prototype that would require the addition of a motor and an external propeller for powered flight. Its recently-announced successor, however, features integrated electric ducted fan motors.

As with its predecessor, the modular components of the new blended-wing UAV were made largely via Fused Deposition Modeling (FDM). This is the type of 3D printing in which successive layers of molten plastic are extruded one on top of another, to build up complete objects.

Although the aircraft consists of separate modules that are bolted together, the central body – which houses the fan motors and incorporates "complex internal features" – was printed as a single ABS plastic part. The motors and electronics themselves were added afterwards.

While some other components were made from carbon fiber this time around (it presumably now takes a little longer than 24 hours to build), those parts were still made using 3D-printed molds. As an added economical bonus, those molds were double-sided, allowing one piece of plastic to be used to create two parts. One of those carbon parts is a moveable "duck tail," which facilitates improved pitch control by channeling the air as it comes out of the ducts.

The finished UAV weighs 3.5 kg (7.7 lb), puts out 2.5 kg (5.5 lb) of combined thrust, cruises via remote control at nearly 72 km/h (45 mph), and is launched using a custom-made catapult. It can be seen in flight in the video below.

Plans call for the next version to have a twice-as-wide 3-meter (9.8-ft) wingspan and miniature gas turbine engines. It may also incorporate unique flight control surfaces, and carbon composite batteries that are part of its structure.

Sources: University of Sheffield, AMRC paper



 

fonte :3D-printed UAV now sports ducted fan motors

3DR Releases the New Aero-M & X-8M Mapping Platforms

3DR’s Aero-M and X8-M are fully automated and intelligent tools: drone mapping platforms for easy, fast and accurate aerial data acquisition that will enable you to take informed and targeted action. They provide a level of insight that’s invaluable to industries like agriculture, construction, mining, and land and resource management, or for gathering data for any area that needs to be looked at closely and often. They allow you to get this data cheaper, easier, quicker, with less risk and more frequency and detail than manned flight or satellite imagery.

Our mapping drones come bundled with a high-resolution Canon SX260 visible-spectrum camera, but the payload system is interchangeable so you can swap your own cameras or sensors for shooting IR, hyperspectral or other imagery. The package also includes Pix4D professional image-processing software, a version developed specifically for the 3DR platform by Pix4D, the leading image post-processing company.

Our three-step workflow is fully automated: Plan, fly, process. Select the area you want to map, and the drone computes the flight path that will cover it. While in flight, onboard software automatically captures all the right photos for you and geo-tags where each one was taken; takeoff and landing are also both automated, with built-in flight protections like Return-to-Land. Finally, our custom Pix4D post-processing software stitches these photos into a crisp, high-resolution map, down to an amazing one cm/pixel, depending on the height of your flight. Zoom in from the sky down to the grape.

Additionally, you can save and repeat any flight with as much frequency as you need, and you can compare and overlay that data across time.

Imagine the advancements you might make if you could get accurate and immediately actionable information about your land as frequently as you want. You’ll see more, see better, and save money, and once you see your operations from the air you’ll never approach work the same way again. There are two options for included Pix4D software, designed specifically for 3DR mapping platforms. Capabilities include creating 2D maps in the Standard version, and the Pro version can also create index maps (e.g., NDVI) in a single workflow, perfect for crop stress differentiation. In addition, you can “fly through your map” in a software-generated 3D movie, complete with waypoints. And we’ve made all of this available at a price up to five times less than that of our nearest competitor, which will revolutionize the commercial UAV industry.

Image processing for our mapping platforms is powered by Pix4D, the leading provider for professional UAV processing software. The Pix4Dmapper software included in your package is a complete and fully automatic mapping and modeling solution that can convert and join thousands of images into highly accurate geo-referenced 2D mosaics. The software can also generate fly-through animations from original images in asingle workflow. The software is suited to beginners as well as professional photogrammetrists: Create the project and get results with one click.

A Pix4Dmapper Pro upgrade is also available for 3DR mapping platform customers. With Pix4Dmapper Pro 3DR Edition users are enabled to exploit full 3D capabilities as well as agriculture specific tools. The Pro version can generate point clouds, digital surface and terrain models, create vector objects (polylines, surfaces, stockpiles) and create index maps (e.g. NDVI).

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fonte:omiga-plus

RIEGL - Single news

RIEGL launches the RiCOPTER Unmanned Aerial System!

 

 

 

(07.10.14)

We, RIEGL are presenting an impressive display at INTERGEO. Both at RIEGL's indoor booth A3.014 in hall 3.1 as well as in the outdoor area at booth FG.002 new revolutionary products are being unveiled.

We are excited to announce the release of the RiCOPTER! Therefore we are the first major LiDAR manufacturer to develop its own unmanned aerial system. The RiCOPTER is a high-performance UAV equipped with the RIEGL VUX-1 survey-grade LiDAR sensor to offer a fully integrated turnkey solution.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Stop by the RIEGL booth to see the VUX-1 integrated into several other UAS systems, such as SARAH by Flying-Cam or Aeroscouts UAS, demonstrating the versatility of the instrument! Moreover live demonstrations of RiCOPTER will be performed Tuesday - Thursday in Intergeo’s UAV flight zone.

We are also launching a brand new airborne LiDAR system. Come by our booth to see the new VQ-880-G, a fully integrated turnkey LiDAR solution for topo-bathymetric surveying applications.

On the terrestrial side, we are adding a new terrestrial laser scanner to our portfolio. The VZ-2000 is RIEGL's fastest terrestrial laser scanner. It comes with a 1MHz pulse repetition rate and up to 400,000 effective measurements per second, with range performance of more than 2,000 meters. The VZ-2000 is a great surveying tool for both static as well as mobile mapping with the VMZ hybrid mobile mapping solution.

In addition to all of the new hardware that we will have on display at INTERGEO, there are also several software introductions. RIEGL is releasing the RiSCAN PRO 2.0, a major update to RiSCAN PRO with significant improvements and new 64-bit architecture.

Learn more about other significant software improvements directly at the booth.

We are looking forward to welcoming visitors to its booth A3.104 and FG.002 at INTERGEO this year!

fonte:RIEGL - Single news