Friday, February 22, 2019

Soil Moisture Monitoring by Drone

Australian stuff from Monash University.  Very neat and very useful.


Autonomous Drones for Soil Moisture Mapping Help Farmers Use Water More Efficiently (Video)

Monash ​University ​engineers are ​working with ​Australian ​farmers to help ​them improve ​irrigation ​practices, ​reduce water ​use and ​maximise crop ​harvest by ​using ​autonomous ​drone ​technology. ​
As severe ​drought ​continues to ​devastate ​farmland and ​impact food ​supply across ​Australia, a ​Monash ​University ​research team, ​led by ​Professor Jeff ​Walker, has ​spent the past ​two years ​developing a ​drone-based ​autonomous soil ​moisture ​mapping system ​for irrigated ​paddocks. ​
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Monash ​University ​engineers are ​working with ​Australian ​farmers to help ​them improve ​irrigation ​practices by ​using ​autonomous ​drone ​technology. (​Image source: ​Monash )
The team has ​recently ​completed field ​experiments ​using optical ​mapping which ​can determine ​soil moisture ​levels in the ​near-surface. ​The data taken ​from the drone ​can be ​downloaded and ​used to produce ​a map of ground ​soil moisture ​levels to ​inform the ​farmer on how ​best to ​irrigate the ​paddock. ​
While equipped ​with optical ​mapping as a ​proof-of-​concept, the ​drone has now ​advanced to ​passive ​microwave ​sensing ​technology ​using L-Band ​waves, with ​further ​research being ​conducted on ​the potential ​for using P-​band waves. P-​Band waves are ​expected to be ​able to measure ​up to 15cm into ​the soil ​unimpeded by ​vegetation and ​tillage ​features. ​
Drones have ​the capacity to ​analyse soil ​moisture at ​metre-level ​scales within a ​paddock, ​allowing ​farmers to ​focus on ​specific crop ​irrigation, and ​overcomes the ​challenges of ​aircraft or ​satellite ​mapping. ​
Testing has ​taken place ​across two ​farms in ​regional ​Victoria and ​Tasmania. One ​was at a dairy ​farm using a ​centre pivot ​irrigator and ​the other was a ​crop farm using ​a linear shift ​irrigator. ​
“We need ​to produce 60% ​more food with ​the same amount ​of land and ​water, and we ​can only ​achieve this by ​being more ​efficient with ​the water we ​use through ​irrigation,​” ​Professor ​Walker, Head of ​Civil ​Engineering at ​Monash ​University, ​said. ​
“We need ​to know how ​much the crop ​needs, how much ​moisture is ​already there ​and apply just ​the right ​amounts of ​water in the ​correct places ​to avoid ​wastage while ​keeping the ​crop at its ​peak growth.​” ​
Good soil ​moisture allows ​for the optimal ​growth and ​yield of crops, ​while at ​broader spatial ​scales also ​regulates ​weather, ​climate and ​flooding. The ​water levels in ​the soil ​controls ​evaporation ​over land and ​thus the energy ​fluxes into the ​atmosphere. ​This drives the ​atmospheric ​circulation, ​which drives ​climate. ​
“If the ​soil is too dry,​ crops can fail ​due to a lack ​of water. But ​if the soil is ​too wet, crops ​can not only ​fail but pests ​and diseases ​can flourish,​” ​Professor ​Walker said. ​
Professor ​Walker said the ​farming ​industry has ​welcomed ​smarter and ​more automated ​practices, but ​there are few ​tools available ​to make the ​already ​difficult ​workloads of ​farmers more ​manageable. ​
“At best,​ farmers might ​have a single ​soil moisture ​sensor in a ​paddock, but ​this doesn’​t allow for the ​optimal ​application of ​water, ​especially as ​this resource ​becomes scarcer.​ Plus it ​won’t ​take into ​account ​moisture ​variation ​levels across ​the individual ​paddocks,”​ Professor ​Walker said. ​
As crop ​failures due to ​a lack of water ​have enormous ​human and ​financial ​consequences, ​Professor ​Walker said ​Australian ​farmers need to ​become more ​efficient in ​soil moisture ​mapping by ​using ‘​precision ​agriculture’​ methods such ​as autonomous ​soil moisture ​mapping using ​drones. ​
“Farmers ​also need to ​cooperate; ​water ​conservation ​and efficiency ​is a collective ​responsibility. ​Everyone needs ​to do their ​part to use ​water more ​effectively or ​we’re at ​risk of running ​out completely,​” ​Professor ​Walker said. ​
“As the ​world’s ​driest ​continent ​facing climate ​change, a ​growing ​population and ​a greater ​demand for food,​ water ​conservation ​should be one ​of Australia’​s top ​priorities.​” ​
This project ​is part of ​Monash ​University’​s expanding ​interdisciplinary​ ​focus on the ​use of data and ​technology to ​solve real-​world problems ​for today and ​in the future. ​
The Autonomous ​Drones for Soil ​Moisture ​Mapping project ​was funded by ​Monash ​Infrastructure ​through a seed ​funding scheme. ​This project ​forms part of ​Professor ​Walker’s ​wider research ​into soil ​moisture ​mapping and ​autonomous ​farming.  ​
News source: Monash University  
Video source:​ Posterboy ​Media on Vimeo 

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