An information processing device that can easily predict the seed quality is provided. An information processing device includes an information acquiring unit configured to acquire, as seed management information about a seed to be predicted, a state of a plant for seed collection from which the seed is collected, and a state of the seed; and a generation processing unit configured to generate seed quality information for the seed to be predicted, by inputting the seed management information acquired by the information acquiring unit into a learning model that has been taught, through machine learning, a correlation between the seed management information about a seed being a training object and the seed quality information indicating quality related to germination or maturity of the seed.

To provide a fungicidal composition having stable and high controlling effects against plant diseases, particularly preventive and/or curative effects against plant diseases, and a method for controlling plant diseases.

A fungicidal composition comprising, as active ingredients, pyriofenone, (b) fluazinam and (c) thiophanate-methyl, and a method for controlling plant diseases, which comprises applying the fungicidal composition comprising the above active ingredients to plants and/or to a soil in which they grow.

An apparatus includes at least one electron beam generator for generating accelerated electrons with which bulk material particles are impingeable during free fall. The electron beam generator has an annular design in which the electrons are emitted and accelerated by an annular cathode. The electrons exit from an electron outlet window in the direction of the ring axis. The annular electron beam generator is arranged in such a way that the ring axis of the electron beam generator is oriented perpendicular to, or at an angle of up to 45? from the horizontal. The apparatus may further include a device for separating bulk material particles arranged above the annular electron beam generator, the bottom wall of said device having at least one opening out of which the bulk material particles fall and, from there, fall through the ring which is formed by the electron beam generator.

An apparatus includes at least one electron beam generator for generating accelerated electrons with which bulk material particles are impingeable during free fall. The electron beam generator has an annular design in which the electrons are emitted and accelerated by an annular cathode. The electrons exit from an electron outlet window in the direction of the ring axis. The annular electron beam generator is arranged in such a way that the ring axis of the electron beam generator is oriented perpendicular to, or at an angle of up to 45? from the horizontal. The apparatus may further include a device for separating bulk material particles arranged above the annular electron beam generator, the bottom wall of said device having at least one opening out of which the bulk material particles fall and, from there, fall through the ring which is formed by the electron beam generator.

A device for the inoculation of seeds is attached internally to a seed meter or a seed box on a planting machine. This is done to carry out the inoculation and treatment of seeds at the same time that they are being planted. The device has a reservoir where the inoculant is placed and then subsequently taken by the pump to the cylindrical mixture chamber. At the top of the cylindrical mixture chamber is a nozzle, which is located at the opposite side of where the seeds leave. They leave from the bottom of the device. There is a drive axle and a group of gears that move and give force to the blades that mix the seeds in the fluid located in the inner part of the chamber. The chamber is connected to the seed distributor disc and the flow of seeds is based on the seed distributor disc's consumption.

A device for the inoculation of seeds is attached internally to a seed meter or a seed box on a planting machine. This is done to carry out the inoculation and treatment of seeds at the same time that they are being planted. The device has a reservoir where the inoculant is placed and then subsequently taken by the pump to the cylindrical mixture chamber. At the top of the cylindrical mixture chamber is a nozzle, which is located at the opposite side of where the seeds leave. They leave from the bottom of the device. There is a drive axle and a group of gears that move and give force to the blades that mix the seeds in the fluid located in the inner part of the chamber. The chamber is connected to the seed distributor disc and the flow of seeds is based on the seed distributor disc's consumption.

An intelligent seed production apparatus and method based on multistage screening and bud eye identification includes a feeding module, a pre-cutting module, a bud eye identifying and cutting module, and a material mixing module. The feeding module can screen out seed potatoes with the mass and shapes meeting the requirements through a multistage screening mechanism. The pre-cutting module can receive the seed potatoes discharged from the feeding module, and cut each seed potato in half, the bud eye identifying and cutting module can receive the seed potato pieces discharged from the pre-cutting module and determine the weight of the seed potatoes and identify the bud eye distribution on the surfaces of the seed potatoes, and cut the seed potato into multiple required tubers, so that bud eyes are distributed on different tubers uniformly. The material mixing module can receive the cut tubers, and complete the material mixing of the tubers.

An intelligent seed production apparatus and method based on multistage screening and bud eye identification includes a feeding module, a pre-cutting module, a bud eye identifying and cutting module, and a material mixing module. The feeding module can screen out seed potatoes with the mass and shapes meeting the requirements through a multistage screening mechanism. The pre-cutting module can receive the seed potatoes discharged from the feeding module, and cut each seed potato in half, the bud eye identifying and cutting module can receive the seed potato pieces discharged from the pre-cutting module and determine the weight of the seed potatoes and identify the bud eye distribution on the surfaces of the seed potatoes, and cut the seed potato into multiple required tubers, so that bud eyes are distributed on different tubers uniformly. The material mixing module can receive the cut tubers, and complete the material mixing of the tubers.

Particles are sorted into paths based on a measurable parameter by forming them into a stream in at least one duct carried on a body rotating around an axis where the duct is shaped so that the particles are accelerated to cause the particles separated into the duct to be aligned one after another in a row in the duct. The parameter of the particles are measured in the aligned stream one after the other and the particles are directed into one of a plurality of paths as determined by the measurement. In one arrangement the body comprises a disk member having a front face facing a supply conduit and the duct lies in a radial plane of the disk member. In one arrangement the measurement of the parameter is carried out by one or more measurement devices either carried on the disk or outside the edge of the disk.

A system for electronically pulsing agricultural product with seed includes a seed transport mechanism affixed to a seed planter row unit. A seed sensing device senses dispensation of the seed from the seed transport mechanism. An agricultural product conduit dispenses agricultural products into the seed transport mechanism to provide dispensing of the products with the seed as the seed and product exit the seed transport mechanism. A control interface electronic system dispenses a particular quantity of product with the seed in the seed transport mechanism. A pulsing valve dispenses products from the conduit when the seed sensing device senses the dispensation of the seed. A seed release speed is provided which is proportional to the ground speed of the seed planter row unit to minimize seed tumbling and optimize accurate placement of seed and product at varying ground speeds of the row unit.