An automatic climatological station for glacier studies, Axel Heiberg Island, N.W.T.

Seifert, Waldemar Jacob.

January 1968

No description available.

A study of the viability of a mesoscale network using rooftop weather systems

Hicks, Ashlee Caroline. Ruscher, Paul.

January 2006

Thesis (M.S.)--Florida State University, 2006. / Advisor: Paul Ruscher, Florida State University, College of Arts and Sciences, Dept. of Meteorology. Title and description from dissertation home page (viewed June 13, 2006). Document formatted into pages; contains xii, 100 pages. Includes bibliographical references.

An automatic climatological station for glacier studies, Axel Heiberg Island, N.W.T.

Seifert, Waldemar Jacob.

January 1968

No description available.

Use of short-term stations to estimate rainfall

Veerasamy, S. (Shyamnath)

January 1984

No description available.

Rain and rainfall -- Measurement.

Meteorological stations.

Procedures for quality control and analysis of data from a solar meteorological monitoring station

Phan, Cung Ngoc

08 1900

No description available.

Solar radiation Data processing

Meteorological stations Data processing

Cloud climatology and microphysics at Eureka using synergetic radar/lidar measurements

Rémillard, Jasmine.

January 1900

Thesis (M.Sc.). / Written for the Dept. of Atmospheric and Oceanic Sciences. Title from title page of PDF (viewed 2009/07/07). Includes bibliographical references.

Use of short-term stations to estimate rainfall

Veerasamy, S. (Shyamnath)

January 1984

No description available.

Rain and rainfall -- Measurement.

Meteorological stations.

Integrating real-time weather data with dynamic crop development models

Donaldson, William S.

14 November 1991

Crop development models are commonly used in research. However, their use as crop management tools for growers is rare. Decision support systems (DSS), which combine crop models with expert systems, are being developed to provide management assistance to growers. Researchers at Oregon State University are in the process of developing a DSS. Research was conducted to develop a computer program to provide current and generated weather data for use by the DSS. The objectives of this research were to obtain a weather station, develop a set of quality control procedures to check data from the station, obtain a weather generator program, and create a weather data manager program to implement the above objectives. A weather station was obtained and was placed near two existing weather stations for ten months. Data from the weather station was compared with the other two stations for values of monthly average maximum temperature, minimum temperature, and daily total solar radiation and monthly total precipitation. The weather station performed well. Only measurements of total daily solar radiation were consistently different from the other stations. Based on a comparison of the weather station with an Eppley pyranometer, a factor was calculated to correct the solar radiation readings. The quality control procedures used on the weather data were adapted from automated procedures given in the literature. When tested, the procedures performed as desired. When used on actual data from the weather station, values that failed the procedures were apparently legitimate values. Options were added to the data manager program that allow the user to quickly decide what to do with failed values. For a weather data generator, WGEN was chosen from the generators presented in the literature. An input parameter file was created for the Corvallis, Oregon area and thirty years of data were generated. Monthly means from this data were compared with thirty-year historical monthly means for Corvallis. Precipitation data from WGEN compared well with the historical data. The generated data for maximum and minimum temperature and daily total solar radiation had great differences from the historical data. It is believed that the input parameters for the Corvallis area suggested by the authors of WGEN are not appropriate. The weather data manager program was written in the C programming language, and occupies approximately 98 kilobytes of disk space, not including the eleven files created directly and indirectly by the program. The main functions of the program are: 1) retrieving data from the weather station and performing quality control procedures on the data (allowing the user to decide what to do with values that failed QC); 2) viewing and editing of files by the user; 3) weather data generation (creating a file of only generated data or appending generated data to the file of current data from the weather station to create a file containing a full year of weather data); and 4) miscellaneous functions (monitoring the weather station, setting the calendar in the station's datalogger, and changing information used by the data manager program). It is hoped that this program will be a significant contribution towards the development of a decision support system. / Graduation date: 1992

Decision support systems

Meteorological stations

Measurement and validation of rainstorm parameters with the VPI radar

Sweeney, Dennis

January 1986

This paper presents a broad overview of the equipment and rational of the experiment conducted by the VPI Satellite Communications Group under INTELSAT Contract 433. The object of this experiment is to assess the validity of meteorological radar as a predictor of satellite earth-space path fade statistics. To validate the data collected by the VPI radar for this experiment, the differential reflectivity (ZDR) measured during the November 29-30, 1985 rainstorm is compared with calculated ZDR and ZDR from published plots. The special hardware and calibration techniques required for this experiment are also described. An IBM-PC controlled antenna pointing system and a system to continuously monitor both the peak and average power of the radar transmitter are included. Also included is a calibration system for the radar receiver. A simple computer program is developed which will give the radar cross section of a metal sphere. This sphere is used as a calibrated radar target. / M.S.

LD5655.V855 1986.S9654

Satellites -- Research

Information Technology Implementation Decisions to Support the Kentucky Mesonet

Grogan, D. Michael

01 April 2010

The Kentucky Mesonet is a high-density, mesoscale network of automated meteorological and climatological sensing platforms being developed across the commonwealth. Data communications, collection, processing, and delivery mechanisms play a critical role in such networks, and the World Meteorological Organization recognizes that “an observing system is not complete unless it is connected to other systems that deliver the data to the users.” This document reviews the implementation steps, decisions, and rationale surrounding communications and computing infrastructure development to support the Mesonet. A general overview of the network and technology-related research is provided followed by a review of pertinent literature related to in situ sensing network technology. Initial infrastructure design considerations are then examined followed by an in-depth review of the Mesonet communications and computing architecture. Finally, some general benefits of the Mesonet to the citizens of Kentucky are highlighted.

meteorological sensing platform

Kentucky climatology

climatological sensing platform

data transmission systems

automatic meteorological stations

Climate

Databases and Information Systems

Environmental Monitoring

Meteorology