SIPAD (Integrated System for Urban Transportation Fleet Monitoring)

The use of intelligent systems based on information technology has always been a focus for improving the efficiency of transportation and addressing the growing needs in this field. It aims to reduce congestion in streets, manage traffic, enable electronic payments, promote environmental and safety benefits, manage and control air quality, provide interactive vehicle and road systems, prioritize public transportation to reduce travel time, and provide real-time information at stations and stops. These are just a few examples of the extensive applications of this technology in the transportation sector, which is being utilized in many cities across different countries.

Hardware features:

  • GPS module
  • GSM module with antenna
  • Processor
  • Bluetooth
  • Indicator lights
  • Memory
  • Power supply system
  • Backup battery
  • Accelerometer sensor
  • Control unit input reception
  • High-precision fuel consumption measurement
  • Engine RPM
  • Total engine operating hours
  • High-precision distance traveled by the vehicle
  • Vehicle speed
  • Air pressure
  • Tell-tale
  • Cruise control
  • Vehicle weight
  • Odometer input
  • ACC input
  • Digital input/output
  • Analog input
  • RS-232 port
  • Compliance with IP65 standard
  • Card reader connectivity
  • Camera connectivity
  • Ability to store positions in case of a mobile network outage and resend them
  • Memory management

Software features:

  • Ability to record and send location based on time, distance, and change in movement angle
  • Possibility of two-way communication with the central system via TCP/IP and sending and receiving data
  • Ability to query vehicle location from the central system
  • Recording the occurrence of events such as connection/disconnection of the main power, and disruption in CAN input
  • Detection of device detachment from the vehicle
  • Detection of data loss
  • Watchdog functionality
  • Firmware update capability via the GSM platform
  • Definition and setting of geographical boundaries (Geo-fencing)
  • Fleet grouping and access level creation for each group