We are absolutely delighted at the calibre of speakers coming together for LandWISE 2018 – Technologies for Timely Actions. They have a wide range of backgrounds, work in a range of different sectors looking at a wide range of different things.
We’ve put information about the speakers on our discussion (blog) posts. Here, they are presented as a list with links so you can follow as you please.
We are grateful for the support of AGMARDT, McCain Foods and Heinz-Watties for helping bring our international speakers to New Zealand.
BASF Crop Protection and Hawke’s Bay Regional Council are long term loyal supporters of LandWISE and their contributions are highly valued. Power Farming is a new Platinum Sponsor in 2018 and we look forward to our relationship with them. AGMARDT sponsored our international speakers.
Hawke’s Bay Regional Council has been part of LandWISE since 1999, when some farmers, scientists and industry people got together to try and improve soil quality, stop wind erosion and improve irrigation efficiency and of course yields. Our Mission doesn’t change so much, but the tools to help us along the way certainly have!
BASF Crop Protection has been a foundation sponsor of the LandWISE MicroFarm as well as our annual conferences. They show ongoing enthusiasm to help us help farmers and that is greatly appreciated.
Our new Platinum Sponsor is Power Farming. We’ve had help from them in several of our projects, most recently with the Canterbury field work and field events that were part of our FAR/SFF Fertiliser Spreader Calibration project. The Power Farming catalogue matches well with our conference delegates’ and members’ interests.
AGMARDT has funded travel expenses to bring many international speakers to our Annual Conferences, as well as several projects including “Soils First Farmers” and “Validating Field Robotics“.
Process Vegetables NZ and Vegetables NZ have been conference sponsors for many years. As the levy funded industry research bodies they represent the farmers in our membership and nationally. These bodies also co-fund research projects including a number of our Sustainable Farming Fund initiatives.
Our conference delegates are well supported by our meal sponsors and trade displays. In addition, Apatu Farms sponsor high school students to attend, and McCain Foods and Heinz-Wattie’s are sponsoring keynote Sarah Pethybridge‘s travel. Thanks everyone!
Armin Werner has a background in crop production sciences and as director of an Institute on Land Use Systems at ZALF in Germany worked on enabling new technologies for sustainable development.
Since 2013 Armin has headed the Precision Agriculture Science group at Lincoln Agritech (LAL), a subsidiary of Lincoln University in New Zealand. This covers Precision Farming (arable crops, pastures), Precision Livestock Farming, Precision Horticulture, Precision Spraying as well as Agricultural (Outdoor) Robotics.
Armin’s work has led him to create strong linkages and collaboration projects between various scientific disciplines and sectors including academic institutions, researchers and farmers.
Current projects include trans-disciplinary and technology-based research in NZ for various high-value crops; e.g. on fruitlet counting and sizing for apple crop load management. He manages also the Robotic Spearhead project of the National Science Challenge ‘Science for Technological Innovations’ that develops new knowledge for small, highly adaptable and flexible robots.
At LandWISE 2018 Armin will update delegates on the “Precision Grape Yield Analyser”, a research project on vineyard sensing and yield forecasting that Lincoln Agritech is undertaking.
Armin says,
“The ‘Precision Grape Yield Analyser’ is an ongoing interdisciplinary MBIE-project, supported by NZ Wine Growers and several vineyards. Grapevine yields can vary between seasons by a factor of 2 and New Zealand grape growers are keen to avoid unplanned high yields. To assess the expected yield on the block level very early in the season we develop sensing tools and computer models. AI-based sensor fusion combines data from optical and microwave ‘scanners’ and feed the results into a continuously learning, predictive computer model.
Acuris Systems is developing orchard management systems that provide robotics, data capture and analytics for kiwifruit growers, to detect disease, forecast yield and increase grower knowledge of their orchard and its variability.
Nick and Matt are presenting at LandWISE 2018 on the topic, “A robotic platform for canopy monitoring“.
Nick says, “At the moment we are focusing on accurate fruit counting using photogrammetry and neural networks. Utilising the recent advancements in artificial intelligence and machine learning, we aim to analyse crop, detect disease and forecast yield. Beyond just analysis we want to develop a solution that will robotically automate the kiwifruit growing processes, including the culling of flowers, spraying of pesticide and picking of the fruit itself.”
The Acuris robot is a smaller, three wheeled machine designed to carry cameras and other sensors around kiwifruit orchards.
For something a bit different, check out K9 the walking quadruped, one of Matt’s earlier prototype robots.
Few activities are more tied to location and the geospatial landscape than agriculture. Agricultural businesses, research and policy makers rely on quantitative data about soils, water, weather, inputs, productivity, outputs, and markets. This summit will tackle the big questions on big data for agriculture in New Zealand and globally: how to make it really work for farmers, policy-makers, markets and consumers?
Presentations and workshops will cover
Precision Agriculture
Environmental Data and Information
The Internet of Things and new sensor technologies
Applications and mobile
Privacy, security and protections
Maps and models – current and future
Collaborations and standards in action
Join international geospatial experts along with local innovators in Palmerston North for this one day Summit.
Richard Parker is a Senior Scientist at Scion in Christchurch. His research focuses on difficult, dangerous and essential occupations such as forest harvesting and rural fire fighting from the perspectives of human factors and technology.
Richard is involved in the development of novel robots for forest operations and the human factors of forest work. He was a tree faller and breaker out in a former life. He is also leads research on rural fire fighter performance and new technologies for fire detection and suppression and is a volunteer rural firefighter.
Delegates at LandWISE 2017: are we ready for automation? will hear Richard say that robotics is inevitable in forestry as specialised machines for forest tasks are developed. The mining industry already has a history of robot development and automation and forestry is learning from their experience. However, forestry has particular challenges – much of the commercially forested land in New Zealand is on steep and remote terrain.
Forest harvesting operations have been traditionally considered physically demanding and potentially dangerous, with forest workers on foot exposed to heavy and fast-moving trees, logs and machinery. Many tasks in forestry have already been mechanised to reduce hazards to the worker and increase productivity. For example, the axe was replaced by the chainsaw, which was replaced by the excavator based harvesting machine. However large machines can damage the sensitive forest soils and cannot work on steep terrain where many forest grow. This presentation will discuss the next stage of forest machine development which uses the standing trees for support.
Animals have lived in the trees for millions of years and have developed behavioural, structural and physiological adaptations to the arboreal environment. Some animals move slowly from branch-to-branch like the stick insect. Others, such as gibbons, can move rapidly using brachiation, engaging in the arboreal equivalent of running through the forest from branch to branch. An opportunity exists to use this form of locomotion, although more slowly than gibbons, for the movement of forestry machinery.
The proposed machine could always stay above ground moving from tree-to-tree using the trees for support. The machine would eliminate the problem of soil disturbance and would not be limited by terrain steepness.
Bottle Lake Trial Robot
With funding from Scion, the Ministry for Primary Industries and the Forest Growers Levy Trust, the concept of a tree-to-tree forestry machine became real. Scion and University of Canterbury Mechanical Engineering and Mechatronics students built a working radio controlled tree-to-tree locomotion machine. Development of a real machine demonstrated that being independent of the ground makes operator control easier because the ground conditions (holes, rocks, loose soil) do not have to be adjusted for.
Our conference delegates are well supported by our meal sponsors and trade displays. In addition, Apatu Farms sponsor high school students to attend, and McCain Foods and Heinz-Wattie’s are sponsoring keynote 
