Technical data
Chapter 1 _________________________________________________________ General Information
VAISALA_________________________________________________________________________ 5
The new Digital I/O module option expands the use of the
MAWS system into supervisory and control systems. This
allows users to add controlling features such as
burglary/vandalism alarms, flood gate controls and
optimization of telemetry device power, to name but a few.
Standardization – Economies of Scale and
Scope
Information technology, sensor technology, electronics and data
communication have developed rapidly in recent years. This has made
the automation of meteorological and hydrological networks very
economical and attractive to meteorological and hydrological
institutes, power corporations and other authorities that need to
monitor weather and/or manage water systems such as rivers, lakes,
reservoirs and ground water. Hydrometeorological networks, which
typically consist of hundreds of automatic monitoring stations,
telecommunication systems, databases and application software for
users, are installed over wide geographical areas that often include
remote areas. The equipment must be able to survive harsh weather
conditions while providing information on the prevailing weather,
precipitation, water quality and existing water reserves that the
authority needs to manage - whether scarce or overabundant - or give
timely and accurate forecasts, whether short or long-term.
Meanwhile, demand for meteorological and hydrological data is
growing constantly due to new requirements arising from legislation,
environmental awareness and the push for efficiency in many of the
industries that drive our modern society. Nowcasting, including the
forecasting of floods and severe weather events, is creating new
requirements for real-time monitoring.
A hydrometeorological network is rarely used on its own and in many
cases the same infrastructure is used for other applications as well.
Complementary meteorological and climatological observations, or
vise versa, are frequently required in order to be able to produce
timely and accurate forecasts, warnings, reports and other end
products. New forecasting models require more data and more
parameters to be monitored - both in meteorology and in hydrology.
If the network is located in a populated area, the hydrometeorological
stations can provide accurate real-time weather information to the
local community, environmentally hazardous industry, fire brigades,
holiday resorts etc, who would not otherwise have accurate
meteorological information available. By using the same sensor, data