Time stamps and latency time, Global water instrumentation – Xylem SIT65 SATELLITE INTERNET TELEMETRY User Manual

Global Water Instrumentation

8

Time Stamps and Latency Time

Latency time is the total time between the SIT65 transmitting data and the data

appearing on the hosting web site. The data is held in the radio module until one of

the satellites is within range, and then sent. The information is further held at the

satellite until its data buffers are full before relaying it to one of several ground

stations where it is transferred to the Internet. These two factors contribute most of

the latency time but additional time delays can be added by the transfer of data

through servers. This latency time also applies to control and interrogation

commands being sent to the SIT65. Total delay time is not predictable but areas

with good satellite coverage and an unobstructed view of the sky can expect a total

delay of 2 to 5 minutes. Some international locations may not be as well covered

and could experience longer delays; as can installations in canyons, mountainous

areas and places surrounded by tall buildings where the view of the open sky is

partially obstructed.

The latency time will delay alarm event transmissions sent, and control commands

received, by the field station. This will result in unpredictable delays between alarm

event transmissions and the email and text message notifications sent by the

database. These delays also apply to the time between control commands being

sent and the digital outputs acting on them.

The time stamp for data readings is applied by the database at the time the data

arrives. This time stamp includes the latency time and does not indicate the actual

time the data was taken. Because the latency time varies from one transmission to

another, the interval between data readings also varies. This variation can be

several minutes. If the SIT65 is programmed to transmit once each hour, a typical

time stamp may vary from 55 minutes to 65 minutes between transmissions, which

does not create a significant error in most cases. However, the variation in time

stamps remains the same regardless of the transmission interval. For systems

transmitting at faster intervals, the variation in time stamps can produce a much

greater percentage of error. This puts a practical limit on how often the SIT65 can

transmit and still produce useful data. It is generally not recommended that the

system be programmed to transmit more than once every 15 minutes.