Category Archives: LandWISE People

Automation, LandWISE 2015, LandWISE People, Precision Agriculture, Sensing, Tillage

Robotics and Intelligent Systems to Improve Land and Labour Productivity

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LandWISE 2015 Presenter, Robert Fitch

RobertFitch2

Robert Fitch and Salah Sukkarieh
Australian Centre for Field Robotics
School of Aerospace, Mechanical and Mechatronic Engineering
The University of Sydney, NSW Australia

Food production in the 21st century must respond to significant new pressures to increase quantity and nutritional quality. Because natural resources are limited, achieving such goals must involve improvements in production efficiency. At the same time, we must engage in environmental stewardship, contend with the rising cost and diminishing availability of human labour, and reverse the steady decline in the number of farmers worldwide.

Meeting these challenges will require major innovations in technology, farming systems, and operations enabled by advances in robotics and automation.

One of the leaders in agricultural robotics research is the Australian Centre for Field Robotics (ACFR) at The University of Sydney, recognised as one of the largest field robotics groups in the world. We conduct research using both ground and aerial robots that is helping to shape the future of farms.

Our collaboration with Queensland University of Technology (QUT) and start-up company SwarmFarm addresses the issue of soil structure damage from ever-larger tractors and implements by replacing a single large soil-compacting vehicle with many small vehicles that move lightly across the surface without compacting the soil or disturbing its protective top layer.

The Ladybird robot designed by the University of Sydney
The Ladybird robot designed by the University of Sydney

The potential for robot teams is also strong in integrated weed management strategies. The Ladybird is a prototype we designed and fabricated for the vegetable industry, supported by AusVeg. Beneath the outer shell is a manipulator arm that can be used to position a variety of implements for weed control, such as tines, microwave, grit-blasting, and steerable targeted spray.

The problem of detecting individual weeds is one part of our general framework for crop intelligence, where robots perform autonomous farm surveillance (mapping, classification, detection) for crop growth and health.

SydneyRobots
Two ground robots and one aerial robot used in tree crops supported by Horticulture Innovation Australia Ltd.

The farm of the future will not simply replace manual operation with autonomous operation, but instead will adopt a systems view that coordinates all activities and draws more people into farming.

Whole-farm optimisation can be seen as ‘thinking beyond the robot’ to restructure farm operations in terms of the timing and logistics of all activities, where individual crop elements have a ‘personality’ that is accurately tracked over the crop lifecycle.

The ACFR has a long history of working in large-scale operations and optimisation with various industry partners and are now beginning to apply the resulting successful methodologies to the agriculture domain.

 

 

 

Automation, LandWISE 2015, LandWISE People, Precision Agriculture, Sensing

Technology Transfer to the Primary Sector

LandWISE 2015 Presenters Mark Burgess and  Bruce MacDonald

MarkBurgess UoA
Mark Burgess
BruceMacDonald
Bruce MacDonald

 

 

 

 

 

New Zealand’s national goals increasing primary sector exports require a significant investment in new technologies that radically optimise resource usage and mitigate impacts associated with sector intensification.  Crucially they need to be technologies that will be adopted by the primary sector.

The University of Auckland has been embracing the associated
technology challenges through a strategy that links its strengths in
life sciences, engineering, chemistry, physics and ICT with the
well-established agricultural and horticultural research institutes
throughout New Zealand and adopting a proactive approach to connecting its scientists and engineers to these sectors and their issues.

For example, ubiquitous work in UAV systems, robotics and automation technologies is now being directed to agritech issues such as pasture management and pollination.

This presentation will cover the strategies implemented to create an
agricultural lens for city scientists and present some case studies of
the research programmes being undertaken. We will present our view on the drivers for adoption.

Associate Professor Bruce MacDonald completed a BE (1st class) and Ph.D in the Electrical Engineering department of the University of Canterbury.  Bruce worked with NZ Electricity and the DSIR in Wellington, NZ, then the Computer Science Department of the University of Calgary in Canada. In 1995 he joined the Department of Electrical and Computer Engineering at the University of Auckland.

His long term goal is to design intelligent robotic assistants that improve the quality of peoples’ lives, with primary research interests in human robot interaction and robot programming systems, and applications in areas such as healthcare and agriculture.

He is the director of the department’s robotics group and a leader for the multidisciplinary CARES robotics team at the University of Auckland. He is the leader of Faculty of Engineering research theme Technology for Health, and Chairman for NZ’s robotics, automation and sensing association.

Bruce is part of a research team to develop modular robots for horticulture.  The Autonomous Multipurpose Mobile Platform (AMMP) modular robot is capable of navigating autonomously in orchards and will include vision-sensing of flowers and fruit for kiwifruit and apples in orchards and arms and grippers for harvesting kiwifruit and apples as well as fast-acting directional control mechanisms for precision targeted spraying of pollen and soft robotic handling of apples and kiwifruit.

The ‘Multipurpose Orchard Robotics’ project is a four year collaboration between Robotics Plus Ltd, University of Auckland, University or Waikato and Plant and Food Research aiming to automate the harvesting and pollination of kiwifruit and apples. (C) RoboticsPlus
The ‘Multipurpose Orchard Robotics’ project is a four year collaboration between Robotics Plus Ltd, University of Auckland, University or Waikato and Plant and Food Research aiming to automate the harvesting and pollination of kiwifruit and apples. (C) RoboticsPlus

The research is a collaboration between Plus Group’s RoboticsPlus Ltd, the University of Auckland, Plant and Food Research, and the University of Waikato.

Agronomy, Automation, Drainage, Irrigation, LandWISE 2015, LandWISE People, MicroFarm, Nutrients, Precision Agriculture, Projects, Sensing, Soil

More adequate or less better sensor arrays and wireless networks

LandWISE 2015 Presenter – Gert HattinghInstalling the WINTEC wireless soil moisture sensor array
Installing the WINTEC wireless soil moisture sensor array

Gert Hattingh is Industry Research Champion at the Waikato Institute of Technology in Hamilton.

Gert’s current work involves finding ways to build more sustainable and energy efficient homes, finding better ways for the normal household to live sustainably, and evaluating new technologies.

Gert says the most burning question in any business venture is whether your actions will cost you money, or make you money.  Any decision you make in the production, marketing or operational sphere has an influence on this statement.  This paradigm has been a design key since Wintec have ventured into producing cost effective sensor arrays and wireless networks.

In the modern measurement world, there are three cost drivers – quality of the sensor(s), the cost of the network carrying the data, and the cost of making sense of and using the data.

Gert and colleagues started off by looking at the network and the data carrier first, and designed a generic sensor module to host and manage almost any sensor type.  They also developed a database model that would host any data from sensors, as well as the encryption and data quality protocols.

To date, their system can host the following type of sensors:  GPS, Air Humidity, Air Temperature (2 sensors), Air pressure, solar irradiation, wind speed, wind direction, soil moisture (various sensors), pH, conductivity, dissolved oxygen, oxidation-reduction potential, ammonia, CO2, methane, propane, NOX and some alcohols.

A single sensor module can carry at most thirteen sensors, with a practical thirty sensor modules per network.  This totals to 390 sensors per network.

This technology is being trialed at the LandWISE MicroFarm, gathering, transmitting and processing soil moisture information from an array of sensors.

Agronomy, LandWISE People, Precision Agriculture, Soil

Planting Precisely – John Chapman

LandWISE 2015 Presenter, John Chapman

JohnChapmanJohn Chapman is the Product Specialist for seeding and cultivation equipment at Power Farming.

John spent 15 years managing farms in Suffolk and Norfolk in the UK after graduating with an MSc in Farm Management.

His  experience with rotations involving many different crops involved many cultivation techniques, as well as a wide range of cultivators and drills to achieve quality seed beds and successful crop establishment in all sorts of conditions and soil types.

Success from precision planting does not come from one or two well made decisions but from a whole host of factors that come together to produce a successful crop.

It is critical to check all areas where the seed drops from to the point where it hits the ground that there are no points at which the seed may catch or have its trajectory affected.

Ensure that seed plates are clean and free from any grooving that has occurred. Badly grooved seed plates have the potential to be distorted and loose vacuum.  The seed needs to be of the optimum quality to singulate well. Even size and condition is essential.  Seed size directly relates to the seed plate chosen.

Forward speed is where in most cases the wheels fall off the wagon. Forward speed has a direct correlation to spacing through the planter’s ability to cope with the speed.

Although drilling depth is of vital importance for even seed germination and emergence it will be affected by the soil conditions, forward speed, varying conditions across the paddock and the state of the coulters.

Agronomy, Automation, LandWISE People, Precision Agriculture, Sensing

Robotic vision systems for real-time crop management

LandWISE 2015 Presenter – Cheryl McCarthy

Cheryl-McCarthyCheryl McCarthy is a researcher at the National Centre for Engineering in Agriculture, University of Southern Queensland based in Toowoomba.

As inputs costs continue to rise, on-farm productivity gains will come from greater sophistication in managing inputs like labour, water, chemicals and energy. Robotics is enabling the development of farming equipment and systems that can precisely sense and control to manage inputs and save labour.

NCEA is conducting a range of research projects that integrate autonomous sensing and control with on-farm operations, to robotically manage inputs within a crop. Major projects are being conducted in on-farm automation for weed spot spraying, adaptive control for irrigation optimisation, and remote crop surveillance using cameras and remotely piloted aircraft.

Cheryl is developing machine vision and sensing systems for agriculture. Machine vision-based weed detection systems have been developed for the sugar, cotton and pyrethrum industries. A Depth and Colour Segmentation process enables weed detection and a new processing technique enables the vision systems to operate at commercial ground speeds of 10-15 km/h.

Optimal irrigation strategies for overhead and surface irrigation systems are being investigated in projects for the cotton and horticultural industries. Trials in the cotton industry at sites on the Darling Downs and Central Queensland have demonstrated 10-30% water savings with 10% increase in yield, as well as labour savings, when using adaptive and automated irrigation systems which combine soil and crop monitoring sensors and variable rate applicators, together with software to calculate optimal irrigation amount.

Insufficient sampling for diseases or pests in crops and pastures can lead to misdiagnosis of the presence or level of infestation in a field, or uniform application of pesticide in a field where infestation is not distributed uniformly. Similarly, field conditions, including crop growth, water stress and weed coverage, vary spatially and require frequent monitoring to optimise management.

NCEA is developing technology that will couple rapid, field-scale data collection from RPAS with automated data and image analysis to automatically diagnose unhealthy areas of crop (see below).

3D model of cotton crop generated by RPAS and photogrammetry software
3D model of cotton crop generated by RPAS and photogrammetry software
Agronomy, Automation, Irrigation, LandWISE People, MicroFarm, Nutrients, Precision Agriculture, Projects, Sensing, Soil, Tillage, Water

The Farm of 2030

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The 2015 LandWISE Annual Conference attracted record numbers. It’s theme looked forward 15 years to contemplate what a farm might look like in 2030.

We are most grateful for the strong support of our many sponsors, a vital feature for bringing such events to the community.Sponsor_Sheet_600

 

You can see the full programme here>

RobertFitch2 TristanPerez1 Cheryl-McCarthy

Three speakers, Robert Fitch, Tristan Perez and Cheryl McCarthy, travelled from Australia to help lead discussions.

Tom Botterill PeterSchaare Ian Yule

Add Tom Botterill, Peter Schaare and Ian Yule

GertHattingh John Ahearn JohnChapman

Gert Hattingh, John Ahearn and John Chapman

BruceSearle200 FinlaysonChristina_200x200 geoff-low-res-e1423206134526

Bruce Searle, Christine Finlayson and Geoff Bates plus others from New Zealand and see the wealth of knowledge and experience available.

You can see all speakers and their biographies here>

On Day 1, presenters discussed sensing, control and robotics. Developments in this area are proceeding remarkably fast, with prototype machines finding their own way around farms, identifying weeds by species and applying custom treatments including sprays only to leaves. Additional presentations on pasture and plant quality detection, grapevine pruning and fruit quality analysis made it a full informative day.

At the end of the day, delegates formed small teams to design their dream agricultural robots – an excellent way to consolidate information. The key however, was identifying what their robots should do (not how) and describing the constraints under which it would need to operate.

As soon as you state a “how” you limit the options that can be considered in determining the final design. Maybe it shouldn’t be a 4-wheeled rover, but an aerial vehicle, or even a ground crawler. Get the specifications right, and the design will identify itself.

AgBot - image from Queensland University of Technology
AgBot – image from Queensland University of Technology

Day 2 began with discussions around variability. Identifying what variability exists, where it is and whether it justifies custom management is a critical starting place. Speakers also focused on managing two important farm  inputs to ensure the right job is done – seed placement and fertiliser application.

Day 2 was completed at the LandWISE MicroFarm at the Centre for Land and Water. There were demonstrations of in-field nitrogen testing, a soil pit to examine, a robot pulling a urine patch detector, a one pass strip-till and planting machine, testing fertiliser spreaders and UAVs.

AltusMissionNDVI
An AltusUAS UAV takes off at the Centre for Land and Water, a mission to collect data at the LandWISE MicroFarm

Something for every forward thinking agriculturist!

More on-line here>

 

Agronomy, Automation, LandWISE People, Precision Agriculture, Tillage

AndWeeder

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Long-time LandWISE member, Andy Lysaght is featuring on Rural Delivery with his mechanical weeder for squash and other crops.

Andy Lysaght

Agricultural contractor Andy Lysaght has invented a machine to weed squash and similar crops mechanically.  Client Gareth Holder, who was paying significant amounts of money for hand weeding of his squash crops, encouraged him to design something mechanical.  About a week later Andy came back to Gareth, and said: “Come and play with this.”

 

Andy has won two major national awards with his Andweeder; the Ravensdown Innovation Award at the National Horticultural Field Day in Hastings, and the Launch NZ Innovation Award at National Fieldays.

Judges said the Andweeder is a step change for the industry, converting an intensive manual process to an automated precision one.

Andweeder (C)
Andweeder Image (C) Plant Detection Systems

A comparative 10ha weeding trial between the Andweeder and human weeders saw the three-row machine take 6 hours 45 minutes, compared with 125 hours by hand.

Andy says: “We are doing our best to get away from chemicals.  We can’t keep doing what we are doing and the rest of the world doesn’t want it either.”

To see Andy on TV, watch Rural Delivery Series 11, Episode 4 on 28 March 2015. First screening, Rural Delivery on TV One, Saturday at 7.00am.  Repeats on TV One Sunday at 6.00am and Heartland channel Sunday at 6:30pm, Monday at 12.30am, 12.30pm and 6.30pm

Irrigation, LandWISE People, Precision Agriculture, Water

Visitors Return to Tennessee

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After a month with LandWISE researching the implications should Tukituki Plan Change 6 rules be applied to the Heretaunga Plains, our two Interns have returned home.

Makenzie and Rachel at the Flaxmere Community Gardens
Makenzie and Rachel at the Flaxmere Community Gardens

While in Hawke’s Bay, they met a number of farmers, policy makers and community stakeholders in order to understand different perspectives. Their report is available here.

Rachel and Makenzie were also able to visit True Earth Organics, the BioRich compost facility at Maraekakaho, Te Aranga Marae and the Flaxmere Community Gardens.

We were also able to involve them in an afternoon of soil surface shear strength assessment at Eskdale. Appropriate health and safety equipment supplied by Centre for Land and Water staff.

Equipment used to assess soil surface shear strength on forested rolling hills at Eskdale
Equipment used to assess soil surface shear strength on forested rolling hills at Eskdale
LandWISE People, Nutrients, Projects, Water

Tennessee Visitors

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LandWISE is hosting two students from the University of Tennessee, Knoxville.

Rachel Eatherly and Makenzie Read are interns through a Massey University programme and are at LandWISE for the month of June. They are both studying Natural Resources and Environmental Economics, which influenced their decision to study abroad in New Zealand through Massey University’s Agricultural College.

Rachel Eatherly    Makenzie Read

Makenzie is concerned with methods of maintaining economic growth while minimizing the impact on water sources. Rachel is interested in sustainable farming practices to minimize the impact on the environment while also increasing profits and production.  So the interests of both align very well with LandWISE.

While at LandWISE, Rachel and Makenzie are considering the implications of applying the Tukituki Plan Change 6 to cropping on the Heretaunga Plains. In particular, they are examining the levels of awareness, the scale of potential impact, and what changes may be required if Plan Change 6 were to be implemented. They appreciate the support they have received from farmers, council, industry and other stakeholders. We will post their report once complete.

Their visit to New Zealand began with a two week tour starting in Christchurch. Travelling with five other colleagues and Massey representatives through Otago to the West Coast and Marlborough they saw our fascinating South Island landscapes and visited farms as well as natural areas. They then travelled around the North Island including stops at National Park, LIC in Hamilton, Auckland, Rotorua and Taupo before arriving in Hawke’s Bay.

Rachel and Makenzie

Rachel and Makenzie at Mt Nicholas Station on Lake Wakatipu
Drainage, Irrigation, LandWISE People, Precision Agriculture, Soil, Tillage, Water

2014 Farmer of the Year Field Day

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Around 300 people attended the Silver Fern Farms Hawke’s Bay Farmer of the Year Field Day on 8 May. Hugh and Sharon Ritchie won the award and opened Horonui, Drumpeel and Wainui farms to public gaze.

A good selection of images from the day can be found on Kate Taylor’s website, rivettingkatetaylor.com. A sample image of folk at Drumpeel is below (thanks Kate)

foy-field-day-drumpeel

Kate Taylor’s photo of people visiting Drumpeel during the Farmer of the Year Field Day

The weather put on a good show as 120+ utes travelled across the three farms.

Horonui has most of the rolling hill country and is the largest part of the the animal enterprise. Check Kate’s photos to see more. The flats are used for cropping with a 50ha area block irrigated by a towable pivot fitting with variable rate technology.

Drumpeel has been the cropping base since Hugh’s parents David and Sally took over the farm and began developing it. Now fully irrigated it has been the site of many trials and field days over the years by FAR and companies testing seed and plant protection options. Hugh himself is constantly testing new ideas!

Hugh has hosted many LandWISE events and supported LandWISE Smart Farming investigations including pH mapping, EM soil scanning, minimum tillage, strip-tillage. Generally he’s been ahead of us.

The Drumpeel linear move irrigator was a test-bed for LandWISE nozzle option research into improving application uniformity. This has been a passion of Hugh’s since his Nuffield Scholarship when he visited Charles Burt at the Irrigation Training and Research Center in California.

Wainui is a new aquisition that adjoins Drumpeel. The Ritchies have just completed their first summer of cropping. A large centre pivot on Wainui has variable rate irrigation which should give increased flexibility and use a set amount of water most efficiently.  A programme of GPS surveying and levelling to enhance drainage at Wainui has begun. This will be discussed at the upcoming LandWISE Conference in Palmerston North on 21-22 May.

Once again, congratulations Hugh and Sharon and their family and staff.