Park, T.; Kennedy, R.E.; Choi, S.; Wu, J.; Lefsky, M.A.; Bi, J.; Mantooth, J.A.; Myneni, R.B.; Knyazikhin, Y.
Application of Physically-Based Slope Correction for Maximum Forest Canopy Height Estimation Using Waveform Lidar across Different Footprint Sizes and Locations: Tests on LVIS and GLAS. Remote Sens. 2014, 6, 6566-6586.
https://doi.org/10.3390/rs6076566
AMA Style
Park T, Kennedy RE, Choi S, Wu J, Lefsky MA, Bi J, Mantooth JA, Myneni RB, Knyazikhin Y.
Application of Physically-Based Slope Correction for Maximum Forest Canopy Height Estimation Using Waveform Lidar across Different Footprint Sizes and Locations: Tests on LVIS and GLAS. Remote Sensing. 2014; 6(7):6566-6586.
https://doi.org/10.3390/rs6076566
Chicago/Turabian Style
Park, Taejin, Robert E. Kennedy, Sungho Choi, Jianwei Wu, Michael A. Lefsky, Jian Bi, Joshua A. Mantooth, Ranga B. Myneni, and Yuri Knyazikhin.
2014. "Application of Physically-Based Slope Correction for Maximum Forest Canopy Height Estimation Using Waveform Lidar across Different Footprint Sizes and Locations: Tests on LVIS and GLAS" Remote Sensing 6, no. 7: 6566-6586.
https://doi.org/10.3390/rs6076566
APA Style
Park, T., Kennedy, R. E., Choi, S., Wu, J., Lefsky, M. A., Bi, J., Mantooth, J. A., Myneni, R. B., & Knyazikhin, Y.
(2014). Application of Physically-Based Slope Correction for Maximum Forest Canopy Height Estimation Using Waveform Lidar across Different Footprint Sizes and Locations: Tests on LVIS and GLAS. Remote Sensing, 6(7), 6566-6586.
https://doi.org/10.3390/rs6076566
