Gabriel Bazzolo en Game Of Drones, IT - Information Technology, beBee in English Owner / Dueño • quDron Inc. 13/2/2018 · 1 min de lectura · +500

Game of Drones: DroneBox the solar charge drone batteries

Game of Drones: DroneBox the solar charge drone batteries

Drones are a set of limitations that fly. Batteries limit how far drones can go, memory limits how much a drone can record, signal strength (and the lack thereof) limits how far drones can fly. The DroneBox is a way around those limitations: a home for drones, connected to a network of drones that are together an Internet of Drones.

With DroneBox, a quadcopter lives most of its life inside a landing pad. The top of the box has solar panels to charge the drone, and it can be connected to the grid too. When the drone wants to fly, the roof retracts and the platform elevates, letting the quadcopter fly free. Or not free, if instead the quadcopter is tethered to its home like a dog leashed in the hard, an alert sentry over a very small area. These Droneboxes will connect to other drone boxes, and eventually back to a central control system. This means they can be networked, short-flying drones communicating with other stations in an "internet of drones."

To really work, though, a customer needs to buy a lot of DroneBoxes and set them up over an area. This could be a military that wants to place scouts along a front line, a conservation group that wants to monitor wildlife in remote areas, or an oil company trying to check on the far flung parts of a pipeline. With external power stations and weather monitoring units, as well as wireless data download and transfer to server, Droneboxes could be a surrogate network of watchers, watched by a relatively small staff of people anywhere, anytime, from the office.

No need for pilots, no need to service UAVs, no need to travel to faraway sites, the system is a grid independent  battery charging and data communication shelter for on-demand sensing drones routine inspections in the field, as well as provide a highly reactive 24/7 perimeter and border security solution. Small stationary fuel cell power supplies from HES Energy Systems offer strategic advantages over other off-grid power sources. They can be located anywhere - and produce dependable power, continously. In combination with solar cells as primary power, the fuel cells can last months or years in the field, and thus provide enough UAV battery charging capacity for a lifetime.

Design by HUS, a Singapore based company, embeds specialist hardware and software capabilities developed by sister companies HES (energy storage systems) and HAS (awareness systems) so that challenging topics such as GPS-denied navigation (indoor flight, or operations in areas with weak GPS signals), area communications, real-time analytics and more. By converging a number of advanced technologies - from power to communications and high-velocity computing, HUS is able to create a range of new products that will turn UAVs into true autonomous robots, able to accelerate costly, lengthy or dangerous tasks in the field. A roadmap of several innovative robotic solutions will yield a range of new products in the coming months and years.

Gabriel Bazzolo