Intelligent Street Lighting


The Idea:

The basic Idea behind this invention is to minimize the energy needs of public lighting while preserving full traffic safety.

Energy saving effects are achieved by realtime analysis of lighting needs, up tp 60% of energy are saved compared to the consumption of contemporary illuminants (LED) without controller.




  • Full compatibility to public lighting systems in use
  • Easy installation, automatic configuration
  • Networked operation and automated maintenance logistics
  • Enhanced lifetime of illuminants, prognosis
  • Light is available, where and when needed, no light pollution



Traffic in the region of each street light is being analysed by integrated sensors, relevant informations are transferred to a controller via the internet.

The brightness of each street light is adjusted to the traffic needs in its direct neighborhood.

The power consumption of each street light that is not needed at a certain point in time is reduced to a minimal value still allowing the system to correctly analyze the traffic in its coverage reliably. This value is at about 10% of the nominal power of the illuminants.

A controller determines the brightness of each assigned street light following these criteria:


  • Network topology (Street map)
  • Relevant data of daylight and weather
  • Traffic situation


System Components:


A) Street Light:

Its most important features are:

  • High reliability (Operational safety, proof against vandalism, emergency operation, event documentation)
  • Networking ability
  • Traffic and weather analysis
  • Artistic design formability


B) Controller:

The controller is used to collect, process and transmit information relevant to the operation of the system and is located at a freely selectable site.

It receives the status information of its assigned street lamps via the internet and processes the collected informations as defined by traffic safety rules and optimization of energy consumption.

The controller detects operational safety problems and generates the relevant error messages which are then communicated via public networks.




  • Real-time traffic and weather information for external networks
  • Detection of traffic offenses, accident documentation
  • Real-time fault messages
  • Public access to the internet (WLAN)
  • Reduced demands on the power supply (Voltage, reactive power)
  • Finding parking space via smartphone application


Simple operation:

Reduction of administrative expenses by direct communication to personnel, easy installation and commissioning, substancial support of the operator.


Energy-saving effects:

The energy saving effects to be expected are in the range of 60%. The financial savings are in the range of 7 to 14 million € per year for a city with 2 million inhabitants.