The first 100% Polish drone with GSM technology and the arbitration feature. The success of Polish engineering.


The fully automatic flight system that allows for automatic starting / landing according to the set flight parameters, including the possibility of unlimited configuration of the flight scenarios in real time.


 video transmission


 flight modes

 max flight altitude


flight time

dimensions (no propellers)



flight speed


 calculation module

 measurement module

 measurement module

 measurement module

 communication module

5 km


30x zoom HD

autonomous, GPS, ATTI, manual

6000 m ASL

from -15°C up to +50°C

35 to 50 minutes

80 cm x 72 cm x 30 cm (height)

16 x 5,4

3,5 kg (no video camera included)

up to 70 km/h


calculation module with arbitration function


measurement module of barometric altitude  and the speed relative to the air streams - altimeter (option)

FDR black box module – real time recorder

869 MHz wireless communication module



The locator is installed separately or integrated with a drone. The system developed

by the Dron House S. A. company allows full control over the drone using the GSM network.

  quick assembly

  separate power supply independent from a drone

  compact size

  visualisation of operating status

  unique ID with a registration number

  ports for charging and data exchange

  automatic update of complete data of airspace zones

  possible to establish a bilateral connection via GPRS

  built-in dedicated memory for data storage

  use of GSM, GPS technology, integrated with UAV monitoring system in real time


The DARTSIL Computer has been developed by Polish scientists based on experience with American army

laboratories. It is specialised unmanned and automated device that can work in two modes: manual and automatic.

It enables an autonomous flight in compliance with requirements of a mission as laid down by an operator.

The DARTSIL computer utilizes a multi-processor architecture used by the world's major airlines.

  arbitration mechanism introduces a unique level of credibility and safety

      on this scale of objects

  advanced flight stabilization through behavioural algorithms

  innovative solutions: redundancy of code and electronic modules

  implementation of critical control and sensory modules

  use of a secure and resistant communication bus

  universal supporting platform that can be used in areas previously reserved for

      manned flying objects

  computing clusters allowing to extend functionality and performance by increasing


  an integral part of the computer is the FDR (Flight Data Recorder) - the so-called

      "black box" which records all flight data and status of the drone, on which you can

      replay the trajectory and flight parameters

  in the event of crash, the data is secure and paging mechanism allows you to quickly

      locate the drone

  improves security and accelerates the prototyping of control algorithms using

      the loop SIL (Software in the Loop), HIL (Hardware in the Loop), MIX (mixed solution),

      virtual sensors and actuators virtual



image processor




HD file format

video resolution


photo resolution

RGB 30x ZOOM camera

Sony CMOS Exmor R (BSI) 1/5,8 inch

minimal illumination 2.8 lux

Samsung IV

Carl Zeiss Tessar

Zoom 30x (equivalent 36 mm - 1120 mm

for the 35 mm format)

compliance with the format MPEG4-MVC / H.264 AVCHD

HD – 1920 x 1080 / 50i (format 16:9), 17-24 Mb/s

STD – 720 x 480 / 50i (format 3:2), 5-9 Mb/s

5,3 Mpix – 3072 x 1728 (format 16:9)



 available formats

optical zoom

 output signal

 sensor sensitivity


10x hd camera

CMOS 1/4 inch



10x, 4.9 mm to 49 mm

1080 p, 30 fps

0.1 lux at f=1.6

HD recording, microphone, auto focus,

auto white balance, auto gain


ul. Puławska 2,

02-566 Warszawa

  +48 884 330 477


ul. Puławska 2,

02-566 Warszawa

  +48 505 040 886