Technology
Time of Arrival (TOA) technique uses the difference in the time when the electromagnetic signature of a lightning flash is detected by two or more sensors within a network. GPATS has developed the Advanced Lightning Positioning System (ALPS™) based on the time of arrival technique.
Time Difference of Arrival (TDOA) Technology
The system uses a Time Difference of Arrival (TDOA) technique applied to the transmission from a radio signal source, in this case a stroke of lightning. This TDOA technique is based on the time differences between the receptions of a radio signal at three remote receivers at known points from a single source at an unknown point. Each signal, traveling at the speed of light, or approximately 186,000 miles per second, is time-stamped by the receivers at the three known points. The time-stamp differences are then used in highly complex hyperbolic curve generation calculations to locate the source of the unknown radio signal. In general, this method defines hyperbolic curves by their arrival time differences at the known receivers, (R1, R2, R3 below). The point of intersection of two hyperbolic curves defines the location of the source of the radio transmission (the location of the lightning stroke).
Only three receivers are needed for the hyperbolic calculations, but more than three receivers may intercept the same signal. With more than three receivers reporting we have redundant information available to improve accuracy calculations and verify the performance. Furthermore, our Network Monitoring Program can also use the redundant reception to automatically monitor receiver performance. The system monitoring function can also determine whether or not a redundant receiver that should have received, processed, and transmitted a signal’s data to the Central Analyzer did receive the data.
If a sensor is seen to have problems and needs diagnostic interrogation, it is a simple matter to access and operate a remote diagnostic program on the network. All TOA Systems, Inc. receivers can be accessed remotely. This allows an operator at the Central Analyzer (ASP) or a technician with communication links to the ASP or receiver to perform periodic diagnostic tests for over a dozen receiver and sensor functions. This very powerful design feature means that maintenance adjustments can then be made or upgraded software can be downloaded without visiting the receiver site. Furthermore because much of the hardware has been designed to be under remote software control through special devices known as Field Programmable Gate Arrays (FPGAs), the receivers’ hardware design can also be reconfigured from a remote location, typically over the Internet.
Sensors
The TOA Systems DSP-DF200 Advanced Lightning Sensor with Digital Signal Processing is designed to bring the latest technology and precision to the market today. Offering LF/VHF dual-band operation the DSP-DF200 processes lightning strokes from both cloud-to-ground (CG) and cloud lightning (CL) simultaneously.
Utilizing a high sensitivity, low noise wideband receiver, state of the art digital filters and equalizers, along with precision GPS time reference, the sensor is able to characterize and categorize the lightning stroke. Once identified, the DSP-DF200 initiates a TCP/IP message to the TOA Systems Advanced Stroke Processor (ASPTM) where the precise lightning location is calculated.
If you want to learn more about GPATS' technology, feel free to download the following files:
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