This report describes
traditional measurement systems and promising new technologies that together may provide the continuity and quality of observations needed to improve our understanding of water vapor in the climate system.
Not exact matches
A new observatory called ABISS that can transmit video and long - term chemical
measurements at broadband speeds from the seafloor using a
system of flashing lights instead of a
traditional tether.
«Sensible tropospheric heat has been the
traditional proxy
measurement for the energy imbalance in the Earth
system»
But when pitted against a brand new climate
measurement system that has the best qualities that science can provide, we find that the
traditional U.S. methodology is significantly overstating the «global warming» phenomenon.
There is a study of a German transition from
traditional glass mercury thermometer
measurement stations to the new electronic
measurement system, http://notrickszone.com/2015/01/14/germanys-warming-happens-to-coincide-with-late-20th-century-implementation-of-digital-
measurement/, where a side - by - side run of the old and new equipment for 8.5 years found that the new equipment yielded a temperature reading 0.93 C higher on average.
To answer this question I looked at more than just the
traditional Hadley, NASA and NOAA datasets, but also the
measurements of the lower troposphere processed by Remote Sensing
Systems (RSS) and the University of Alabama - Huntsville (UAH) as well as the 5 major reanalysis datasets which incorporate station data, aircraft data, satellite data, radiosonde data and meteorological weather modeling.