Hardware and Software solution Geostron

 
Geostron software is a multifunctional system for data collection and analysis.
The application allows to monitor an object in real time, to keep and see tracks (path of an object’s movement on the map) for a chosen time interval, and to generate reports.
 
The functioning of hardware & software solution Geostron is based on coordination between two components: a device for remote location tracking (tracking device) and a software system. This tracking device records the data received from installed sensors and GLONASS/GPS satellites to internal memory, and transmits this data to the server. The server receives and stores the data and transmits it to a client application.
 
Geostron provides a full-featured monitoring of vehicle operation. In our system, you can:
  •    monitor an object in real time;
  •    analyze the actuality of previously received data of the monitored object, with the help of a colored indicator;
  •    position the monitored object at the center of the map;
  •    create a list of objects and change settings for their monitoring;
  •    organize monitored objects: create groups and subgroups;
  •    see and play back tracking paths of an object (the path that an object has traveled) for a chosen time interval;
  •    get telemetry data;
  •    see charts for a selected parameter for a chosen time interval;
  •    position an object to the place at the map that corresponds a chosen point in the chart, and see the value of the parameter the client wants to analyze, at that very point;
  •    generate reports for a chosen time interval;
  •    monitor vehicle speed;
  •    monitor fuel consumption;
  •    see events related to vehicle systems and monitor the operation of vehicle units and assemblies;
  •    set threshold values for parameters, so that an event is created in case the threshold value is exceeded;
  •    set minimum values for fueling amount and drain amount;
  •    create routes for object motion;
  •    receive messages in case some monitored object deviates from the assigned route;
  •    apply changes to the vehicle fleet structure;
  •    configure parameters of object monitoring;
  •    apply changes to the attribute data of a monitored object;
  •    configure sensors;
  •    customize templates of sensor calibration: such calibration makes the value of a measured parameter functionally dependent from the physical value received from a sensor;
  •    add new sensors, set sensor type, associate the sensor with the inputs of the tracking device;
  •    contact a driver via SIP telephone system;
  •    identify a driver at the wheel of a vehicle with the help of I-Button;
  •    create geo zones at a chosen location on the map.