Melissa Fares for Reuters: For 12 months, farmers each get a 320-square-foot steel shipping container where they control the climate of their own farm. Under pink LED lights, they grow GMO-free greens all year round.
Netafim, In Agreement With DLL, Now Enables Farmers To Grow Their Business With Financing Of Sustainable Drip Irrigation Technologies
Bryan Thompson for Harvest Public Media: Agriculture today is a high-tech business, but as that technology has developed, so has the temptation to take short cuts and to steal trade secrets that could unlock huge profits.
DMG Productions uncovers how technology is being used to advance agriculture.
Seth Murray for Photonics.com: Emerging methods for plant phenotyping involve optical sensors - from simple RGB image sensors to NIR and Raman spectroscopy.
Advanced robotics will make jobs such as harvesting easier for farmers. In time, when robots finally learn how to harvest each individual crop, farms will be able to produce more yields for human consumption.
Frank Vinlaun for Xconomy: Drones are opening up the skies to farmers who want better ways to monitor their crops.
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
Records 1171 to 1185 of 1199
Monitoring & Growing - Featured Product
Need to increase safety? Are you using light curtains? Is space a concern? Dynatect's Gortite® VF Automated Machine Safety Door combines safety technology, speed, and a physical barrier to isolate hazardous operations. Use of a physical barrier with safety sensors can save up to 30 square feet of manufacturing space. Using the ANSI minimum safety distance formula, the Gortite® VF Door limits the depth penetration factor and average approach speed, allowing closer location of the safeguarding device. Unlike light curtains, which can't contain process hazards, an automated machine safety door can isolate common workplace debris. This physical barrier is designed to contain process driven hazards such as weld sparks, UV flash, and light debris. Thus, the operator can maintain closer proximity to the work area improving ergonomics and productivity.