TY - JOUR
T1 - Sweet Cubesat - Water detection and water quality monitoring for the 21st century
AU - Antonini, Kelly
AU - Langer, Martin
AU - Farid, Ahmed
AU - Walter, Ulrich
PY - 2016
Y1 - 2016
N2 - Water scarcity and contamination of clean water have been identified as major challenges of the 21st century, in particular for developing countries. According to the International Water Management Institute, about 30 percent of the worlds population does not have reliable access to clean water. Consequently, contaminated water contributes to the death of about 3 million people every year, mostly children. Access to potable water has been proven to boost education, equality and health, reduce hunger, as well as help the economy of the developing world. Currently used in-situ water monitoring techniques are sparse, and often difficult to execute. Space based instruments will help to overcome these challenges by providing means for water level and water quality monitoring of medium-to-large sweet water reservoirs. Data from hyperspectral imaging instruments on past and present governmental missions, such as Envisat and Aqua, has been used for this purpose. However, the high cost of large multi-purpose space vessels, and the lack of dedicated missions limits the continuous monitoring of inland and costal water quality. The CubeSat mission SWEET (Sweet Water Earth Education Technologies) will try to fill this gap. SWEET is a joint effort between the Technical University of Munich, the German Space Operations Center and the African Steering Committee of the IAF. By using a novel Fabry-Perot interferometer based hyperspectral imager, the mission will deliver critical data directly to national water resource centres in Africa with an unmatched cost per pixel ratio and high temporal resolution. Additionally, SWEET will incorporate education of students in CubeSat design, and water management. Although the aim of the mission is to deliver local water quality and water level data to African countries, further coverage could be achieved with subsequent satellites. Finally, a constellation of SWEET-like CubeSats would extend the coverage to the whole planet, delivering daily data to ensure reliable access to clean water for millions of people worldwide.
AB - Water scarcity and contamination of clean water have been identified as major challenges of the 21st century, in particular for developing countries. According to the International Water Management Institute, about 30 percent of the worlds population does not have reliable access to clean water. Consequently, contaminated water contributes to the death of about 3 million people every year, mostly children. Access to potable water has been proven to boost education, equality and health, reduce hunger, as well as help the economy of the developing world. Currently used in-situ water monitoring techniques are sparse, and often difficult to execute. Space based instruments will help to overcome these challenges by providing means for water level and water quality monitoring of medium-to-large sweet water reservoirs. Data from hyperspectral imaging instruments on past and present governmental missions, such as Envisat and Aqua, has been used for this purpose. However, the high cost of large multi-purpose space vessels, and the lack of dedicated missions limits the continuous monitoring of inland and costal water quality. The CubeSat mission SWEET (Sweet Water Earth Education Technologies) will try to fill this gap. SWEET is a joint effort between the Technical University of Munich, the German Space Operations Center and the African Steering Committee of the IAF. By using a novel Fabry-Perot interferometer based hyperspectral imager, the mission will deliver critical data directly to national water resource centres in Africa with an unmatched cost per pixel ratio and high temporal resolution. Additionally, SWEET will incorporate education of students in CubeSat design, and water management. Although the aim of the mission is to deliver local water quality and water level data to African countries, further coverage could be achieved with subsequent satellites. Finally, a constellation of SWEET-like CubeSats would extend the coverage to the whole planet, delivering daily data to ensure reliable access to clean water for millions of people worldwide.
KW - Africa
KW - Constellation
KW - CubeSat
KW - Hyperspectral
KW - Mission design
KW - Water quality
UR - http://www.scopus.com/inward/record.url?scp=85016487640&partnerID=8YFLogxK
M3 - Conference article
AN - SCOPUS:85016487640
SN - 0074-1795
VL - 0
JO - Proceedings of the International Astronautical Congress, IAC
JF - Proceedings of the International Astronautical Congress, IAC
T2 - 67th International Astronautical Congress, IAC 2016
Y2 - 26 September 2016 through 30 September 2016
ER -