Evaluating the Ability of Multi-Sensor Techniques to Capture Topographic Complexity

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Author
Cooper, Hannah M.; Wasklewicz, Thad; LeCompte, Karley; Heffentrager, Madison; Smaby, Rachel; Brady, Julian; Howard, Robert; Zhu, Zhen; Lewis, William
URI
http://hdl.handle.net/10342/11284
Subject
 structure-from-motion; terrestrial laser scanning; lidar 
Date
2021-03-17
Citation:
APA:
Cooper, Hannah M., & Wasklewicz, Thad, & LeCompte, Karley, & Heffentrager, Madison, & Smaby, Rachel, & Brady, Julian, & Howard, Robert, & Zhu, Zhen, & Lewis, William. (March 2021). Evaluating the Ability of Multi-Sensor Techniques to Capture Topographic Complexity. Sensors, (21:6), p.1-23. Retrieved from http://hdl.handle.net/10342/11284

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MLA:
Cooper, Hannah M., and Wasklewicz, Thad, and LeCompte, Karley, and Heffentrager, Madison, and Smaby, Rachel, and Brady, Julian, and Howard, Robert, and Zhu, Zhen, and Lewis, William. "Evaluating the Ability of Multi-Sensor Techniques to Capture Topographic Complexity". Sensors. 21:6. (1-23.), March 2021. October 02, 2022. http://hdl.handle.net/10342/11284.
Chicago:
Cooper, Hannah M. and Wasklewicz, Thad and LeCompte, Karley and Heffentrager, Madison and Smaby, Rachel and Brady, Julian and Howard, Robert and Zhu, Zhen and Lewis, William, "Evaluating the Ability of Multi-Sensor Techniques to Capture Topographic Complexity," Sensors 21, no. 6 (March 2021), http://hdl.handle.net/10342/11284 (accessed October 02, 2022).
AMA:
Cooper, Hannah M., Wasklewicz, Thad, LeCompte, Karley, Heffentrager, Madison, Smaby, Rachel, Brady, Julian, Howard, Robert, Zhu, Zhen, Lewis, William. Evaluating the Ability of Multi-Sensor Techniques to Capture Topographic Complexity. Sensors. March 2021; 21(6) 1-23. http://hdl.handle.net/10342/11284. Accessed October 02, 2022.
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