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Tyler W. Davis
Tyler W. Davis
Senior Engineer, KeyLogic
Verified email at keylogic.com
Title
Cited by
Cited by
Year
Towards a universal model for carbon dioxide uptake by plants
H Wang, IC Prentice, TF Keenan, TW Davis, IJ Wright, WK Cornwell, ...
Nature plants 3 (9), 734-741, 2017
2682017
P-model v1. 0: An optimality-based light use efficiency model for simulating ecosystem gross primary production
BD Stocker, H Wang, NG Smith, SP Harrison, TF Keenan, D Sandoval, ...
Geoscientific Model Development 13 (3), 1545-1581, 2020
1302020
Photosynthetic responses to altitude: an explanation based on optimality principles
H Wang, IC Prentice, TW Davis, TF Keenan, IJ Wright, C Peng
New Phytologist 213 (3), 976-982, 2017
952017
Simple process-led algorithms for simulating habitats (SPLASH v. 1.0): robust indices of radiation, evapotranspiration and plant-available moisture
TW Davis, IC Prentice, BD Stocker, RT Thomas, RJ Whitley, H Wang, ...
Geoscientific Model Development 10 (2), 689-708, 2017
892017
Sap flow sensors: construction, quality control and comparison
TW Davis, CM Kuo, X Liang, PS Yu
Sensors 12 (1), 954-971, 2012
802012
Evolving technologies for growing, imaging and analyzing 3D root system architecture of crop plants
MA PiŮeros, BG Larson, JE Shaff, DJ Schneider, AX Falc„o, L Yuan, ...
Journal of integrative plant biology 58 (3), 230-241, 2016
672016
Biophysical constraints on gross primary production by the terrestrial biosphere
H Wang, IC Prentice, TW Davis
Biogeosciences Discussions 11, 3209-3240, 2014
492014
A study of long-term WSN deployment for environmental monitoring
M Navarro, TW Davis, Y Liang, X Liang
2013 IEEE 24th annual international symposium on personal, indoor, and†…, 2013
472013
Towards long-term multi-hop WSN deployments for environmental monitoring: An experimental network evaluation
M Navarro, TW Davis, G Villalba, Y Li, X Zhong, N Erratt, X Liang, Y Liang
Journal of Sensor and Actuator Networks 3 (4), 297-330, 2014
332014
Analysis of power characteristics for sap flow, soil moisture, and soil water potential sensors in wireless sensor networking systems
TW Davis, X Liang, CM Kuo, Y Liang
IEEE Sensors Journal 12 (6), 1933-1945, 2012
292012
An experimental study of wsn power efficiency: Micaz networks with xmesh
TW Davis, X Liang, M Navarro, D Bhatnagar, Y Liang
International Journal of Distributed Sensor Networks 8 (2), 358238, 2012
272012
A networked sensor system for the analysis of plot-scale hydrology
G Villalba, F Plaza, X Zhong, TW Davis, M Navarro, Y Li, TA Slater, ...
Sensors 17 (3), 636, 2017
182017
ASWP: a long-term WSN deployment for environmental monitoring
M Navarro, TW Davis, Y Liang, X Liang
Proceedings of the 12th international conference on Information processing†…, 2013
162013
Towards a universal model for carbon dioxide uptake by plants, Nat. Plants, 3, 734–741
H Wang, IC Prentice, TF Keenan, TW Davis, IJ Wright, WK Cornwell, ...
122017
A universal model for carbon dioxide uptake by plants
H Wang, IC Prentice, WK Cornwell, TF Keenan, TW Davis, IJ Wright, ...
bioRxiv, 040246, 2016
72016
Ingested foreign bodies simulating polyposis: report of six cases
HC Press Jr, TW Davis
American Journal of Roentgenology 127 (6), 1040-1042, 1976
61976
Environmental monitoring through wireless sensor networks
TW Davis
University of Pittsburgh, 2012
52012
A hydro-thermal-geochemical modeling framework to simulate reactive transport in a waste coal area under amended and non-amended conditions
Y Xu, FJ Plaza, X Liang, TW Davis, J Nichols, JK Fu, P Koranchie-Boah
Heliyon 6 (1), 2020
32020
The Potential Use of Soil Moisture Sensors for Observing Hydraulic Redistribution Characteristics
TW Davis, X Liang
Journal of Water Resource and Hydraulic Engineering 2 (3), 84-91, 2013
22013
Next Generation Image-Based Phenotyping of Root System Architecture
TW Davis, NM Shaw, H Cheng, BG Larson, EJ Craft, JE Shaff, ...
AGU Fall Meeting Abstracts 2016, B54D-06, 2016
12016
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