| Original language | English |
|---|---|
| Journal | Information Processing in Agriculture |
| Early online date | 07 Dec 2018 |
| Publication status | Early online date - 07 Dec 2018 |
Cite this
McSweeney, D., Coughlan, N., Cuthbert, R., Halton, P., & Ivanov, S. (2018). Micro-sonic sensor technology enables enhanced grass height measurement by a Rising Plate Meter. Information Processing in Agriculture.
@article{8411a2813ae641a08c9e10990f371d71,
title = "Micro-sonic sensor technology enables enhanced grass height measurement by a Rising Plate Meter",
author = "Diarmuid McSweeney and Neil Coughlan and Ross Cuthbert and Patrick Halton and Stepan Ivanov",
year = "2018",
month = "12",
day = "7",
language = "English",
journal = "Information Processing in Agriculture",
}
McSweeney, D, Coughlan, N, Cuthbert, R, Halton, P & Ivanov, S 2018, 'Micro-sonic sensor technology enables enhanced grass height measurement by a Rising Plate Meter', Information Processing in Agriculture.
Micro-sonic sensor technology enables enhanced grass height measurement by a Rising Plate Meter. / McSweeney, Diarmuid ; Coughlan, Neil; Cuthbert, Ross; Halton, Patrick; Ivanov, Stepan.
In: Information Processing in Agriculture, 07.12.2018.Research output: Contribution to journal › Article
TY - JOUR
T1 - Micro-sonic sensor technology enables enhanced grass height measurement by a Rising Plate Meter
AU - McSweeney, Diarmuid
AU - Coughlan, Neil
AU - Cuthbert, Ross
AU - Halton, Patrick
AU - Ivanov, Stepan
PY - 2018/12/7
Y1 - 2018/12/7
M3 - Article
JO - Information Processing in Agriculture
JF - Information Processing in Agriculture
ER -
McSweeney D, Coughlan N, Cuthbert R, Halton P, Ivanov S. Micro-sonic sensor technology enables enhanced grass height measurement by a Rising Plate Meter. Information Processing in Agriculture. 2018 Dec 7.