A coffee bean sorting system has a feeding mechanism, a rotary disk, at least one image capture device, an information processing device, and a removal mechanism. The rotary disk can receive coffee beans transported from the feeding mechanism, and can rotate along an axis thereof, such that the coffee beans are spaced apart from each other and form a succession. The image capture device can capture an initial image of each of the coffee beans. The information processing device can perform machine learning training or deep learning training function, identify each of the initial images, and after determining a coffee bean is non-conforming, make the removal mechanism to remove the non-conforming coffee bean.

A coffee bean sorting system has a feeding mechanism, a rotary disk, at least one image capture device, an information processing device, and a removal mechanism. The rotary disk can receive coffee beans transported from the feeding mechanism, and can rotate along an axis thereof, such that the coffee beans are spaced apart from each other and form a succession. The image capture device can capture an initial image of each of the coffee beans. The information processing device can perform machine learning training or deep learning training function, identify each of the initial images, and after determining a coffee bean is non-conforming, make the removal mechanism to remove the non-conforming coffee bean.

Aspects of the present invention generally relate to systems and methods for processing biomaterials in the absence of atmospheric oxygen and products resulting from such processes. Such processing techniques may dramatically increase the shelf-life expectancies of roasted and milled biomaterial products when the roasted and milled biomaterial products are not exposed to oxygen during processing.

Aspects of the present invention generally relate to systems and methods for processing biomaterials in the absence of atmospheric oxygen and products resulting from such processes. Such processing techniques may dramatically increase the shelf-life expectancies of roasted and milled biomaterial products when the roasted and milled biomaterial products are not exposed to oxygen during processing.

The present invention relates to a method for producing roast coffee beans with improved aroma, wherein extracted roast coffee beans are treated with an aqueous liquid comprising glycosidase to hydrolyse carbohydrates in the coffee beans, and the aqueous solution is subsequently used to infuse green coffee beans before roasting.

The present invention relates to a method for producing roast coffee beans with improved aroma, wherein extracted roast coffee beans are treated with an aqueous liquid comprising glycosidase to hydrolyse carbohydrates in the coffee beans, and the aqueous solution is subsequently used to infuse green coffee beans before roasting.

The present invention provides methods for preparing antioxidant-rich products from coffee cherries for nutritional and cosmetic uses. In one aspect, the present invention provides a method for preparing a liquid coffee fruit extract and a liquid coffee fruit extract prepared by the method. In another aspect, the present invention provides a method for preparing dried coffee fruit and a dried coffee fruit product prepared by the method. In yet another aspect, the present invention provides a method for preparing a coffee fruit powder and a coffee fruit powder prepared by the method. The coffee fruit products prepared by the methods of the present invention contain high levels of powerful antioxidants capable of reducing oxidation and preventing oxidative damage for the prevention or treatment of a vast array of diseases and conditions.

The present invention provides methods for preparing antioxidant-rich products from coffee cherries for nutritional and cosmetic uses. In one aspect, the present invention provides a method for preparing a liquid coffee fruit extract and a liquid coffee fruit extract prepared by the method. In another aspect, the present invention provides a method for preparing dried coffee fruit and a dried coffee fruit product prepared by the method. In yet another aspect, the present invention provides a method for preparing a coffee fruit powder and a coffee fruit powder prepared by the method. The coffee fruit products prepared by the methods of the present invention contain high levels of powerful antioxidants capable of reducing oxidation and preventing oxidative damage for the prevention or treatment of a vast array of diseases and conditions.

The present invention includes a method of myceliating coffee beans including sterilizing the coffee beans, preparing a liquid tissue culture including an aliquot of fungal liquid tissue culture derived from liquid state fermentation, and inoculating the coffee beans with the fungal liquid tissue culture. Next, the step of enabling mycelium growth on the coffee includes controlling temperature, humidity, and sterility of the environment. The aliquot of fungal liquid tissue culture is optionally agitated to form hyphael conglomerations of mycelium having sizes of less than 1 mm in diameter.

The present invention includes a method of myceliating coffee beans including sterilizing the coffee beans, preparing a liquid tissue culture including an aliquot of fungal liquid tissue culture derived from liquid state fermentation, and inoculating the coffee beans with the fungal liquid tissue culture. Next, the step of enabling mycelium growth on the coffee includes controlling temperature, humidity, and sterility of the environment. The aliquot of fungal liquid tissue culture is optionally agitated to form hyphael conglomerations of mycelium having sizes of less than 1 mm in diameter.