A trio of industry groups hosted federal officials for a field day of demonstrations on seed treatments, planting practices, and equipment innovations that are bringing continuous improvement to sustainable farming practices.
Coupled with the electrification of farming vehicle systems and rising seed costs, the farmer faces a unique challenge: accurately planting seed in order to optimize crop yield.
Hoosier Ag Today: A new poll finds 21 percent of farmers plan to operate a drone this year. The poll found 21 percent of farmers will operate the drone themselves, while another 12 percent of farmers indicated they would opt for a third-party entity to fly drones.
SLANTRANGE Launches the 3p Multispectral Sensor for Agriculture Drones with Flexible New Data Processing Options
The new 3p sensor from SLANTRANGE, powered by Qualcomm Snapdragon Flight, is available now with new SlantView software plans to meet the needs of all users.
As innovation in agriculture technology continues to accelerate, AgFunder is highlighting twenty companies and three accelerators for their leadership in innovation.
Rob Trice¬ & Seana Day¬ via Forbes: ¬ Last month as our Mixing Bowl colleagues Michael Rose and An Wang were¬ interviewing Sonny Ranaswamy¬ of the USDAs NIFA to better understand current US food and agriculture labor issues, we were representing The Mixing Bowl in discussions on potential solutions to food production labor issues through automation and robotics. At this years RoboUniverse event in San Diego there was a full-day track on December 14th dedicated to the application of robotics to agriculture. The industry track, pulled together in great part by Nathan Dorn, CEO of Food Origins and an Advisor to The Mixing Bowl, featured a knowledgeable group of automation/robotics experts and food producers who drew on their experience to define the opportunities and sharpen focus on the challenges.¬ Nathan authored a detailed summary of the day in a¬ post on Agfunder. Our conclusion is that there is no denying that we are still in the early days of adoption of robotics in agriculture. ¬ Cont'd...
Richmond Nursery in Ontario Saves More Than $50,000 a Year Using an Leviton Environmental Control System
Solar-powered PheNode Is Set for Investment Stage
Aya Takada¬ for Bloomberg: ¬ Jin Kawaguchiya gave up a career in finance to help revive Japans ailing dairy industry -- one robot at a time. In a country that relies increasingly on imported foods like cheese and butter, Japans milk output tumbled over two decades, touching a 30-year low in 2014. Costs rose faster than prices as the economy stagnated, eroding profit, and aging farmers quit the business because they couldnt find enough young people willing to take on the hard labor of tending to cows every day. But technology is altering that dynamic. On the northern island of Hokkaido, Japans top dairy-producing region, Kawaguchiya transformed the 20-cow farm he inherited from his father-in-law 16 years ago into Asias largest automated milking factory. Robots extract the white fluid from 360 cows three times a day and make sure the animals are fed and healthy. The machines even gather up poop and deposits it in a furnace that generates electricity. ¬ Cont'd...
Autonomous Solutions, Inc. (ASI) and CNH Industrial have announced the unveiling of concept autonomous tractors. ASI is CNH Industrials technology provider responsible for developing autonomous vehicle technology for a concept cabless Case IH Magnum and a concept New Holland T8, based on a current production tractor.
Leading-Edge AgTech Company Leverages Technology from SRI International to Make Nutritious Food More Accessible
The technology is mature and ready for the field, say experts
Agri-Tech East award for University of Cambridge Engineering student
From MIT: ¬ The Food Computer is a¬ controlled-environment agriculture¬ technology platform that uses robotic systems to control and monitor climate, energy, and plant growth inside of a specialized growing chamber. Climate variables such as carbon dioxide, air temperature, humidity, dissolved oxygen, potential hydrogen, electrical conductivity, and root-zone temperature are among the many conditions that can be controlled and monitored within the growing chamber. Operational energy, water, and mineral consumption are monitored (and adjusted) through electrical meters, flow sensors, and controllable chemical dosers throughout the growth period. Each specific set of conditions can be thought of as a¬ climate recipe, and each recipe produces unique results in the phenotypes of the plants. Plants grown under different conditions may vary in color, size, texture growth rate, yield, flavor, and nutrient density. Food Computers can even program biotic and abiotic stresses, such as an induced drought, to create desired plant-based expressions... (project homepage)
Spread , a vegetable producer, said industrial¬ robots¬ would carry out all but one of the tasks needed to grow the tens of thousands of lettuces it produces each day at its vast indoor farm in Kameoka, Kyoto prefecture, starting from mid-2017. The robots will do everything from re-planting young seedlings to watering, trimming and harvesting crops. The innovation will boost production from 21,000 lettuces a day to 50,000 a day, the firm said, adding that it planned to raise that figure to half a million lettuces daily within five years. "The seeds will still be planted by humans, but every other step, from the transplanting of young seedlings to larger spaces as they grow to harvesting the lettuces, will be done automatically," said JJ Price, Spreads global marketing manager. The new farm - an extension of its existing Kameoka farm - will improve efficiency and reduce labour costs by about half. The use of LED lighting means energy costs will be slashed by almost a third, and about 98% of the water needed to grow the crops will be recycled. The farm, measuring about 4,400 sq metres, will have floor-to-ceiling shelves where the produce is grown... ( cont'd )
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Monitoring & Growing - Featured Product
MICROMO launches the new MC3/MCS motion control family. The new high performance, intelligent controllers are optimized for use with FAULHABER motors, offer electronics for simple operation with state-of-the-art interfaces for multi-axis applications, and provide a motion control system solution with the most compact integration into industrial grade housing.