Non-contact egg identification system for determining egg viability, and associated method

That which is claimed: 1. An egg identification system for determining viability of an avian egg, the system comprising: a conveyor system configured to convey an egg flat containing a plurality of eggs; a plurality of emitter assemblies configured to emit electromagnetic radiation simultaneously, each emitter assembly being configured to emit electromagnetic radiation toward one of the eggs conveyed in the egg flat, wherein each emitter assembly is modulated at a unique frequency to allow it to be distinguished in the electrical domain; a plurality of detector assemblies axially aligned with a respective emitter assembly, each detector assembly being configured to detect the electromagnetic radiation transmitted through a respective egg, the detector assemblies being configured to concurrently distinguish the frequency of the modulated electromagnetic radiation in the electrical domain; and a processor configured to process an output signal of each detector assembly to determine whether the electromagnetic radiation transmitted through a respective egg as detected by each detector assembly is indicative of a viable or non-viable egg. 2. An egg identification system according to claim 1 , wherein the electromagnetic radiation emitted from the emitter assembly is modulated with a sinusoidal power variation in optical power. 3. An egg identification system according to claim 2 , wherein each detector assembly is configured to locate an electrical signal power within a narrow frequency band. 4. An egg identification system according to claim 1 , wherein each emitter assembly comprises a collimator device configured to collimate the electromagnetic radiation emitted therefrom. 5. An egg identification system according to claim 1 , wherein the emitter assembly includes a light emitting diode source configured to emit infrared radiation. 6. A method of determining viability of an egg, the method comprising: conveying a plurality of eggs contained in an egg flat using a conveyor system; simultaneously emitting frequency modulated electromagnetic radiation from a plurality of emitter assemblies toward the eggs; wherein emitting frequency modulated electromagnetic radiation comprises emitting frequency modulated electromagnetic modulated at a unique frequency to allow it to be distinguished in the electrical domain; detecting electromagnetic radiation transmitted through the eggs with a plurality of detector assemblies, each detector assembly being axially aligned with a respective emitter assembly, the detector assemblies being configured to concurrently distinguish the frequency of the modulated electromagnetic radiation in the electrical domain; generating an output signal from the electromagnetic radiation detected by each detector assembly; and processing each output signal to determine whether the electromagnetic radiation transmitted through a respective egg corresponding as detected by each detector assembly is indicative of a viable or non-viable egg. 7. A method according to claim 6 , wherein emitting frequency modulated electromagnetic radiation comprises emitting frequency modulated electromagnetic radiation modulated with a sinusoidal power variation in optical power. 8. A method according to claim 7 , wherein detecting electromagnetic radiation transmitted through the eggs comprises locating an electrical signal power within a narrow frequency band. 9. A method according to claim 6 , wherein emitting frequency modulated electromagnetic radiation from an emitter assembly toward the egg comprises collimating the electromagnetic radiation with a collimator device. 10. A method according to claim 6 , wherein emitting frequency modulated electromagnetic radiation from an emitter assembly comprises emitting infrared radiation with a light emitting diode source.