An apparatus for raising livestock includes one or more confinement pens together with alleyways for transfer of the animals from one location to another. The apparatus includes one or more cameras for obtaining images of all animals in the containment area. A processor is provided for analyzing the images, the processor being arranged to allocate an arbitrary identification to each animal and to track all animals continually to maintain the allocation. From this tracking various data related to individual animals or the animals as a group can be obtained to assess their characteristics and to provide an indication to the worker of the animal to be extracted. The processor can be arranged to detect by image analysis of the image a quantity of feed and/or water in a feeder and to obtain images of the farrowing pen including the sow confinement area and at least one piglet confinement area.

An apparatus for raising livestock includes one or more confinement pens together with alleyways for transfer of the animals from one location to another. The apparatus includes one or more cameras for obtaining images of all animals in the containment area. A processor is provided for analyzing the images, the processor being arranged to allocate an arbitrary identification to each animal and to track all animals continually to maintain the allocation. From this tracking various data related to individual animals or the animals as a group can be obtained to assess their characteristics and to provide an indication to the worker of the animal to be extracted. The processor can be arranged to detect by image analysis of the image a quantity of feed and/or water in a feeder and to obtain images of the farrowing pen including the sow confinement area and at least one piglet confinement area.

An animal enclosure safe door system may include a door which may be moved between an open position and a closed position via an actuator. A controller unit may operate the actuator to move the door between the open and closed position. The controller unit may comprise a sensor engine which may be configured to detect the presence of an obstruction object which may prevent the door from moving into the closed position. If an obstruction object is detected, the controller unit may stop and/or reverse the movement of the door. A method of an animal enclosure safe door system may include: motivating the door from an open position into the closed position; detecting the presence of an obstruction object in the path of the door to the closed position; stopping the movement of the door for a period of time; and motivating the door into the closed position.

An animal enclosure safe door system may include a door which may be moved between an open position and a closed position via an actuator. A controller unit may operate the actuator to move the door between the open and closed position. The controller unit may comprise a sensor engine which may be configured to detect the presence of an obstruction object which may prevent the door from moving into the closed position. If an obstruction object is detected, the controller unit may stop and/or reverse the movement of the door. A method of an animal enclosure safe door system may include: motivating the door from an open position into the closed position; detecting the presence of an obstruction object in the path of the door to the closed position; stopping the movement of the door for a period of time; and motivating the door into the closed position.

A method and system for preparing a distribution program for insects comprises obtaining distribution data of a wild population of insects; obtaining distribution parameters including distribution resolution levels of at least one available distribution vehicle; generating a population density map at a resolution level consistent with the distribution resolution level of the vehicle; generating a release map by modifying the population density map in accordance with the distribution parameters; and generating a path using the release map, the path defining dosages of insects to be released at respective locations along the path.

A method and system for preparing a distribution program for insects comprises obtaining distribution data of a wild population of insects; obtaining distribution parameters including distribution resolution levels of at least one available distribution vehicle; generating a population density map at a resolution level consistent with the distribution resolution level of the vehicle; generating a release map by modifying the population density map in accordance with the distribution parameters; and generating a path using the release map, the path defining dosages of insects to be released at respective locations along the path.

The invention relates to a device for use in large-scale industrial insect farming. More in particular, the invention relates to a live insects transport device for transporting live insects from a first location to a predetermined second location, the live insects transport device comprising a fluid guiding unit, a fluid discharge member and a feeder arrangement, wherein the live insects transport device is configured to receive live insects such as freshly hatched neonate larvae, for example of black soldier fly, wherein the live insects are taken up in a laminar flow of fluid and while in said fluid are transported to a predetermined location in the live insects transport device. Furthermore, the invention relates to the use of the device in industrial insect farming, such as large-scale farming of black soldier flies, and the invention relates to a method of dosing live insects, wherein preferably live insects are doses which are essentially of the same age, such as freshly hatched neonate larvae.

The invention relates to a device for use in large-scale industrial insect farming. More in particular, the invention relates to a live insects transport device for transporting live insects from a first location to a predetermined second location, the live insects transport device comprising a fluid guiding unit, a fluid discharge member and a feeder arrangement, wherein the live insects transport device is configured to receive live insects such as freshly hatched neonate larvae, for example of black soldier fly, wherein the live insects are taken up in a laminar flow of fluid and while in said fluid are transported to a predetermined location in the live insects transport device. Furthermore, the invention relates to the use of the device in industrial insect farming, such as large-scale farming of black soldier flies, and the invention relates to a method of dosing live insects, wherein preferably live insects are doses which are essentially of the same age, such as freshly hatched neonate larvae.

The present invention relates to devices and methods for separation of non-adult insects, such as pupae or larvae, according to sexual dimorphisms or developmental stages that can affect their size.

The present invention relates to devices and methods for separation of non-adult insects, such as pupae or larvae, according to sexual dimorphisms or developmental stages that can affect their size.