An egg identification system for determining egg viability is provided. Such a system includes an emitter assembly for emitting electromagnetic radiation toward a plurality of eggs positioned proximate thereto. A detector assembly is positioned proximate to the emitter assembly. The detector assembly has a plurality of detectors fixedly positioned with respect to the emitter assembly and configured to detect electromagnetic radiation transmitted through the eggs. An optical shielding assembly is configured to move with respect to the detectors. A processor is in communication with detector assembly and is configured to determine viability of the eggs using the detected electromagnetic radiation. An associated method is also provided.

An incubation tray is disclosed, including an enclosure with a plurality of egg placements for carrying eggs for incubation within an egg incubator. The incubation tray includes a tester unit including plurality of inspection modules in the enclosure associated with the plurality of egg placements. The inspection modules, each includes radiation emitter(s) and sensor(s), and are configured and operable for respectively inspecting the plurality of eggs located in the egg placements, by irradiating the eggs with radiation from a lateral side of the eggs and measuring a radiation response coming in response to the irradiation from a lateral side of the eggs, giving rise to measured data indicative of conditions of the eggs. The measured data may be processed to determine dynamic and static parameters of the radiation response from which a physiological development stage, and growth of the embryos within the eggs can be estimated.

A non-invasive device for determining the fertility and/or sex of an egg. This device obtains a spectral response, specific to the shell, to an incident light signal. The device has a focusing element configured to focus the incident light signal on a surface portion and/or an internal portion of at least one layer of the shell, and elements for determining the fertility and/or sex of the egg as a function of the spectral response specific to the shell.

A pathogen reduction tool implementing a method of processing eggs at a poultry hatchery is provided. Such a method includes setting a production quantity of avian eggs in a setter incubator, the eggs being maintained in a plurality of egg flats. The avian eggs are removed from the setter incubator on a predetermined day of incubation, such predetermined day being during about day nine to day twelve of incubation. Subsequent to removal of the avian eggs from the setter incubator, the avian eggs are subjected to an egg detection system on the predetermined day to determine which of the avian eggs are viable and non-viable. The non-viable avian eggs are removed from the egg flats on the predetermined day. The viable avian eggs remaining in the egg flats post-inspection by the egg detection system are incubated through hatch.

The invention relates to a method for producing chicken at a hatchery, the method comprising; incubating a batch of eggs in an incubating device during an incubating period of between about 7 to about 20 days, and then, for each egg of the batch, detecting the presence of a hatchable chicken embryo, based on the presence of a hatchable chicken embryo, dividing the batch of eggs into at least a hatchable batch portions and a not-hatchable batch portion, hatching the hatchable batch portion until hatching occurs, rearing of chicken hatched from said hatchable batch portion,
wherein the method comprises at the hatchery processing the not-hatchable batch portion into feed and administering said feed at the hatchery to hatched chickens during rearing.

According to the present invention, a method and an apparatus are provided for creating an opening in the calcified shell of an incubated bird egg containing an embryo, in the region of the blunt end of the incubated bird egg. Within the region of the blunt end there is an outer membrane and an inner membrane with an air cell located therebetween. The apparatus comprises a holder on which the incubated bird eggs are stored with their pointed ends facing downwards, wherein the embryo adjoins the inner membrane, a first detection device configured to detect the position and geometry of the air cell, and an opening device configured to create an opening in the calcified shell at the blunt end of the incubated bird egg above the taut inner membrane. Due to the open calcified shell, the sex of the embryo may be determined in a reliable way.

An incubation tray is disclosed, including an enclosure with a plurality of egg placements for carrying eggs for incubation within an egg incubator. The incubation tray includes a tester unit including plurality of inspection modules in the enclosure associated with the plurality of egg placements. The inspection modules, each includes radiation emitter(s) and sensor(s), and are configured and operable for respectively inspecting the plurality of eggs located in the egg placements, by irradiating the eggs with radiation from a lateral side of the eggs and measuring a radiation response coming in response to the irradiation from a lateral side of the eggs, giving rise to measured data indicative of conditions of the eggs. The measured data may be processed to determine dynamic and static parameters of the radiation response from which a physiological development stage, and growth of the embryos within the eggs can be estimated.

An egg identification system for determining viability of an avian egg is provided. Such a system includes an emitter assembly configured to emit electromagnetic radiation having a predetermined wavelength toward an egg. A detector assembly is spaced-apart from the emitter assembly and configured to detect electromagnetic radiation transmitted through the egg. A light controlling assembly is positioned proximate to the emitter assembly. The light controlling assembly includes an absorbing layer configured to absorb electromagnetic radiation at the predetermined wavelength. The absorbing layer defines an opening through which electromagnetic radiation emitted from the emitter assembly is capable of passing therethrough toward the egg. A processor is configured to process an output signal of the detector assembly to determine viability of the egg. An associated method is also provided.

An egg identification system for determining viability of an avian egg is provided. Such a system includes an emitter assembly configured to emit electromagnetic radiation toward an egg. A detector assembly is axially aligned with the emitter assembly to detect electromagnetic radiation transmitted through the egg. The detector assembly is spaced-apart from the egg during operation thereof such that the detector assembly does not contact the egg. The detected electromagnetic radiation is processed using transmission spectroscopy analysis to determine whether the egg is viable. An associated method is also provided.

The invention relates to a candling apparatus for the rapid discrimination, removal and relocation of non-live avian eggs. The invention further relates to methods of use of the candling apparatus for the candling, removal and relocation of avian eggs.