Superior Title: Remote Sensing 12 (2020), Nr. 2
Subject Terms: Atmospheric boundary layer cycle, Boundary layer height distribution, Ceilometer, Gradient method, Radiosonde, Rawinsonde, Scattering lidar, Standard deviation method, Wavelet covariance transform method
Time: 620
File Description: application/pdf
Superior Title: Remote Sensing 12 (2020), Nr. 2
Subject Terms: Atmospheric boundary layer cycle, Boundary layer height distribution, Ceilometer, Gradient method, Radiosonde, Rawinsonde, Scattering lidar, Standard deviation method, Wavelet covariance transform method
Time: 620
File Description: application/pdf
Superior Title: Remote Sensing 12 (2020), Nr. 2
Subject Terms: Atmospheric boundary layer cycle, Boundary layer height distribution, Ceilometer, Gradient method, Radiosonde, Rawinsonde, Scattering lidar, Standard deviation method, Wavelet covariance transform method
Time: 620
File Description: application/pdf
Superior Title: Remote Sensing 12 (2020), Nr. 2
Subject Terms: Atmospheric boundary layer cycle, Boundary layer height distribution, Ceilometer, Gradient method, Radiosonde, Rawinsonde, Scattering lidar, Standard deviation method, Wavelet covariance transform method
Time: 620
File Description: application/pdf
Superior Title: Remote Sensing 12 (2020), Nr. 2
Subject Terms: Atmospheric boundary layer cycle, Boundary layer height distribution, Ceilometer, Gradient method, Radiosonde, Rawinsonde, Scattering lidar, Standard deviation method, Wavelet covariance transform method
Time: 620
File Description: application/pdf
Superior Title: Remote Sensing 12 (2020), Nr. 2
Subject Terms: Atmospheric boundary layer cycle, Boundary layer height distribution, Ceilometer, Gradient method, Radiosonde, Rawinsonde, Scattering lidar, Standard deviation method, Wavelet covariance transform method
Time: 620
File Description: application/pdf
Superior Title: Remote Sensing 12 (2020), Nr. 2
Subject Terms: Atmospheric boundary layer cycle, Boundary layer height distribution, Ceilometer, Gradient method, Radiosonde, Rawinsonde, Scattering lidar, Standard deviation method, Wavelet covariance transform method
Time: 620
File Description: application/pdf
Superior Title: Remote Sensing 12 (2020), Nr. 2
Subject Terms: Atmospheric boundary layer cycle, Boundary layer height distribution, Ceilometer, Gradient method, Radiosonde, Rawinsonde, Scattering lidar, Standard deviation method, Wavelet covariance transform method
Time: 620
File Description: application/pdf
Superior Title: Remote Sensing 12 (2020), Nr. 2
Subject Terms: Atmospheric boundary layer cycle, Boundary layer height distribution, Ceilometer, Gradient method, Radiosonde, Rawinsonde, Scattering lidar, Standard deviation method, Wavelet covariance transform method
Time: 620
File Description: application/pdf
Superior Title: Remote Sensing 12 (2020), Nr. 2
Subject Terms: Atmospheric boundary layer cycle, Boundary layer height distribution, Ceilometer, Gradient method, Radiosonde, Rawinsonde, Scattering lidar, Standard deviation method, Wavelet covariance transform method
Time: 620
File Description: application/pdf
Superior Title: Remote Sensing 12 (2020), Nr. 2
Subject Terms: Atmospheric boundary layer cycle, Boundary layer height distribution, Ceilometer, Gradient method, Radiosonde, Rawinsonde, Scattering lidar, Standard deviation method, Wavelet covariance transform method
Time: 620
File Description: application/pdf
Superior Title: Remote Sensing 12 (2020), Nr. 2
Subject Terms: Atmospheric boundary layer cycle, Boundary layer height distribution, Ceilometer, Gradient method, Radiosonde, Rawinsonde, Scattering lidar, Standard deviation method, Wavelet covariance transform method
Time: 620
File Description: application/pdf
Superior Title: Remote Sensing 12 (2020), Nr. 2
Subject Terms: Atmospheric boundary layer cycle, Boundary layer height distribution, Ceilometer, Gradient method, Radiosonde, Rawinsonde, Scattering lidar, Standard deviation method, Wavelet covariance transform method
Time: 620
File Description: application/pdf
Authors: Haisken-DeNew, John P., Schmidt, Christoph M.
Subject Terms: Sektorale Lohnstruktur, Mikroökonometrie, Vergleich, Schätzung, Deutschland, USA, jel:C20, jel:J31, Inter-Industry Wage Differentials, West Germany, dummy variables, restricted least squares, weighted standard deviation
Availability: https://www.econstor.eu/bitstream/10419/20933/1/dp98.pdf
Authors: Haisken-DeNew, John P., Schmidt, Christoph M.
Subject Terms: Sektorale Lohnstruktur, Mikroökonometrie, Vergleich, Schätzung, Deutschland, USA, jel:C20, jel:J31, Inter-Industry Wage Differentials, West Germany, dummy variables, restricted least squares, weighted standard deviation
Availability: https://www.econstor.eu/bitstream/10419/20933/1/dp98.pdf
Authors: Haisken-DeNew, John P., Schmidt, Christoph M.
Subject Terms: Sektorale Lohnstruktur, Mikroökonometrie, Vergleich, Schätzung, Deutschland, USA, jel:C20, jel:J31, Inter-Industry Wage Differentials, West Germany, dummy variables, restricted least squares, weighted standard deviation
Availability: https://www.econstor.eu/bitstream/10419/20933/1/dp98.pdf
Authors: Haisken-DeNew, John P., Schmidt, Christoph M.
Subject Terms: Sektorale Lohnstruktur, Mikroökonometrie, Vergleich, Schätzung, Deutschland, USA, jel:C20, jel:J31, Inter-Industry Wage Differentials, West Germany, dummy variables, restricted least squares, weighted standard deviation
Availability: https://www.econstor.eu/bitstream/10419/20933/1/dp98.pdf
Authors: Haisken-DeNew, John P., Schmidt, Christoph M.
Subject Terms: Sektorale Lohnstruktur, Mikroökonometrie, Vergleich, Schätzung, Deutschland, USA, jel:C20, jel:J31, Inter-Industry Wage Differentials, West Germany, dummy variables, restricted least squares, weighted standard deviation
Availability: https://www.econstor.eu/bitstream/10419/20933/1/dp98.pdf
Authors: Haisken-DeNew, John P., Schmidt, Christoph M.
Subject Terms: Sektorale Lohnstruktur, Mikroökonometrie, Vergleich, Schätzung, Deutschland, USA, jel:C20, jel:J31, Inter-Industry Wage Differentials, West Germany, dummy variables, restricted least squares, weighted standard deviation
Availability: https://www.econstor.eu/bitstream/10419/20933/1/dp98.pdf
Authors: Haisken-DeNew, John P., Schmidt, Christoph M.
Subject Terms: Sektorale Lohnstruktur, Mikroökonometrie, Vergleich, Schätzung, Deutschland, USA, jel:C20, jel:J31, Inter-Industry Wage Differentials, West Germany, dummy variables, restricted least squares, weighted standard deviation
Availability: https://www.econstor.eu/bitstream/10419/20933/1/dp98.pdf