Solar Tent From Orange

 Orange has revealed their vision for the tent of the future. Utilising cutting edge eco-energy technology, the Orange Solar Concept Tent will allow campers to keep in touch and power their essential camping gadgets.

 The Concept Tent has been designed in association with American product design consultancy Kaleidoscope and builds on learnings from the original Orange Solar Tent that was trialled at Glastonbury in 2003, as well as 2004’s Orange Text Me Home Dome. Having worked closely with Glastonbury for the last eleven years, Orange know the importance of keeping in contact with friends while on site and undertook this concept project to look at how the festival goers communication and power supply needs might be met in the future.

Latest research shows that by weaving specially coated solar threads into conventional fabric, revolutionary new ways of capturing the sun’s energy could soon become a reality. These radical advances mean that rather than relying upon familiar fixed panels, designers were free to conceive how a tent of flexible solar fabrics might look.

The Concept Tent’s solar shell uses this technology to full effect with three directional glides which can be moved throughout the day to maximise its solar efficiency, capturing the optimum amount of energy which can to be used throughout the tent in a variety of new and exciting ways.

 The heart of the Concept Tent is a central wireless control hub which displays energy generated and consumed as well as providing a wireless internet signal; all information is displayed on a flexible, touchscreen LCD display screen.

 Integrated into the hub is a wireless charging pouch which powers mobile phones and other portable devices without the need for messy wires and multiple chargers. The ‘magnetic induction’ technology passes an electric current through a coil embedded in the charging pouch, this in turn generates a magnetic field which creates a charge and powers the battery.

Also controlled by the central hub is an internal heating element embedded within the tent’s groundsheet; this under floor heating is triggered automatically once the interior temperature falls below a set level.

Kaleidoscope Strategist, Finn McKenty, said: “The development of photovoltaic fabric will revolutionise festival tent design, in working with Orange we have created a vision for a solar tent that we believe is a great glimpse of what’s to come.”

Ian Smith, Head of Sponsorship, Orange UK, said: “Since becoming Official Communications Partner of Glastonbury Festival in 1997 Orange have strived to enhance the camping experience through a variety of sustainable initiatives. Our vision of the concept tent builds on this heritage and recognises the revolutionary effect cutting edge solar technology and wireless communication could have on festival goers’ camping experiences.”

Whilst currently only a concept, the vision of the Orange Solar Concept Tent has been designed to celebrate Orange’s 11th year at Glastonbury. This year, Orange Chill ‘n’ Charge tent will be at Glastonbury again, providing 600 mobile phone charging points, free internet access and live music.

Draganflyer X8

Draganflyer X8 8-Rotor UAV Helicopter Provides High Definition Wireless Video and High Resolution Photographs

 The latest in aerial photography and videography is this Draganfly X8, a unique machine powered by eight motors, each with its own rotor blade! This stable flyer can carry 1.7 pounds of equipment and features 11 onboard sensors and a sophisticated autopilot to self-stabilize during flight. Its foldable carbon-fiber frame makes transport easy. Police departments across the U.S. and Canada are already using the Draganflyer X6, a smaller UAV, in search and rescue operations, training, surveillance and even homicide investigation.

 Draganfly Innovations Inc. is announcing the release of the new Draganflyer X8 helicopter, a miniature UAV for commercial/industrial aerial video and photography. The unique design utilizes eight main horizontal rotor blades and allows the Draganflyer X8 helicopter to hover efficiently and maneuver rapidly using differential thrust. Eight industrial electric motors allow the Draganflyer X8 to carry heavier and more advanced payloads while providing more safety features than ever before. The Draganflyer X8 will also be compatible with our latest technologies, including the handheld Ground Control Station (GCS) and IP video camera systems.

The increased payload capability of the Draganflyer X8 has allowed it to carry a select variety of digital SLR cameras and various 1080p video cameras. The Draganflyer X8’s industrial-strength electric motors provide increased thrust over the Draganflyer X6, which allows the Draganflyer X8 to carry an increased payload.

Innovative new camera systems will be offered as options for the Draganflyer X8 UAV, including the new IP video cameras. IP video cameras work by transmitting digital video over an 802.11n wifi connection. Digital video is less susceptible to random noise than analog video. Digital video is also more secure because IP cameras work over their own wireless network, which can be encrypted to protect the video stream from unauthorized viewing. Because the IP cameras are digital, they can record video to a buffer in internal memory before streaming it to the receiving station. This means that the cameras can be used to capture high resolution still pictures while video is being recorded. Video from the IP cameras can be streamed over the internet easily, allowing you to transmit your video live to almost anywhere in the world.

The Draganflyer X8 UAV will be our first UAV helicopter to offer the new handheld Ground Control Station (GCS) as an option. The GCS is currently in development; when complete, it will effectively contain all the features of both the handheld controller and the video base station in one handheld package. Running a Linux operating system on an Intel Atom™ processor allows the GCS to run our existing DraganView software and provide helicopter control at the same time.

Safety and durability have been incorporated into the design of each Draganflyer helicopter and the Draganflyer X8 is no exception. It offers more safety features than ever before. Even if an in-flight collision causes one of the motors to stop working, the Draganflyer X8 helicopter, with dual motors on each of the four arms, will still be able to fly using the remaining seven motors. Other safety features include high intensity LED navigation lights for distance or low-light flying and auto-landing if the radio link between the helicopter and its controller is lost. An onboard flight recorder stores telemetry and flight data in a removable memory card. This information can be used for post-flight analysis with our DraganView software.

The Draganflyer X8 UAV helicopter has been designed with a unique folding carbon fiber frame. This allows the Draganflyer X8 to become conveniently compact for storage and transportation. Once the Draganflyer X8 carbon fiber frame is folded, it fits securely in its back-packable case.

The Draganflyer X8 is a fully functional, miniature, unmanned, electric powered helicopter. Aimed at industrial and commercial use, it provides reconnaissance and inspection information using onboard wireless video (equipped with digital video recorders) and still images. The Draganflyer X8 helicopter achieves its stability by using an onboard processor running custom-designed Draganfly software and receiving data from eleven onboard sensors (three gyros, three accelerometers, three magnetometers, one barometric pressure sensor, and one GPS receiver). It is easily piloted by users with minimal training. The Draganflyer X8 helicopter determines its own orientation and motion, moving where the operator instructs it, automatically handling the complex attitude and altitude adjustments that would normally require an experienced pilot.

The Draganflyer X8 helicopter can be put into GPS hold mode where it will maintain its position without any user input. This means that once the GPS hold is activated, the pilot can concentrate on framing the shot using one of the various cameras that the Draganflyer X8 can carry.

The Draganflyer X8 helicopter is flown using a custom-designed handheld controller with a 2.8” color OLED touchscreen that displays telemetry and flight data. The Draganflyer X8 handheld controller receives streaming video sent by the helicopter and in turn, sends this video to a pair of video goggles. The video goggles enable the operator to view what the helicopter is seeing in real-time while also keeping an eye on the helicopter itself.

 The increased payload capability of the Draganflyer X8 has allowed it to carry a select variety of digital SLR cameras and various 1080p video cameras.

How Undersea Cables are Laid by Cable Ships?

Recently there was a disruption on the SEA-ME-WE 4 cable connecting SEACOM to London through the Mediterranean Sea.Due to this we had various questions asking us exactly how undersea cables are laid. This short video explains the process SEACOM took while laying the undersea cable.With the global explosion of world-wide telecommunication, the demand for underwater communication has become increasingly requisite. Underwater cables are laid from specially designed cable ships which can stock thousands of miles of coiled cable in their holds. The special amplifiers, spaced about 25 miles apart, within these undersea cables, are used usually to boost up the voltage of the signals carried in them in order to prevent the losses in the cable.
However, the cable ships must take necessary measures while laying out the fiber optic cables in the sea bed to ensure that they do not break and the amplifiers do not get damaged, and can work for many decades uninterruptedly.