Incubator illumination

The invention claimed is: 1. An incubator system configured to provide illumination for one or more cameras, comprising: a plurality of walls forming a cavity, the walls being substantially transparent, wherein the individual walls include (i) a surface that faces into the cavity, (ii) a surface that faces away from the cavity, and (iii) edges along top, bottom and sides, wherein at least two of the plurality of walls includes radiation scattering structures arranged to scatter electromagnetic radiation, the scattered electromagnetic radiation being guided within the wall and being guided out into the cavity through the surface that faces into the cavity, such that at least part of the cavity is illuminated diffusely; one or more sensors that generate one or more output signals conveying information related to a position of an infant within the cavity; one or more light sources configured such that electromagnetic radiation emitted by the one or more light sources is guided into one of the walls that includes the radiation scattering structures; and one or more processors configured to execute computer program modules, the computer program modules comprising: a positioning module configured to determine the position of an infant within the cavity, wherein the determination is based on information from the one or more sensors; and a light module configured to control the one or more light sources based on the determined position of the infant such that electromagnetic radiation emitted by the one or more light sources impacts specular reflectance observed through at least one camera by affecting an incidence angle between the one or more light sources and the at least one camera. 2. The incubator system of claim 1 , wherein the one or more sensors include one or more weight sensors, and wherein the determination by the positioning module is based on information from the one or more weight sensors. 3. The incubator system of claim 1 , wherein control of the one or more light sources by the light module includes control of one or both of an illumination intensity and/or an illumination direction of at least one light source. 4. The incubator system of claim 1 , wherein the radiation scattering structures included in a wall include one or both of non-uniformities within the wall and/or non-uniformities on a surface of the wall. 5. The incubator system of claim 1 , wherein affecting the incidence angle between the one or more light sources and the at least one camera includes the electromagnetic radiation emitted by the one or more light sources substantially having an angle of incidence between the one or more light sources and the at least one camera of less than 40 degrees. 6. A method to provide illumination for one or more cameras in an incubator system, the method comprising: forming a cavity using a plurality of walls, the walls being substantially transparent, wherein the individual walls include (i) a surface that faces into the cavity, (ii) a surface that faces away from the cavity, and (iii) edges along top, bottom and sides, wherein at least two of the plurality of walls includes radiation scattering structures arranged to scatter electromagnetic radiation, the scattered electromagnetic radiation being guided within the wall and being guided out into the cavity through the surface that faces into the cavity, such that at least part of the cavity is illuminated diffusely; generating one or more output signals conveying information related to a position of an infant within a cavity; determining the position of an infant within the cavity; emitting electromagnetic radiation by one or more light sources such that the electromagnetic radiation is guided into one of the walls that includes the radiation scattering structures; and controlling the emission of electromagnetic radiation based on the determined position of the infant such that the electromagnetic radiation impacts specular reflectance observed through at least one camera by affecting an incidence angle between the one or more light sources and the at least one camera. 7. The method of claim 6 , wherein the one or more sensors include one or more weight sensors, and wherein the determination of the position of the infant is based on information from the one or more weight sensors. 8. The method of claim 6 , wherein controlling the emission of electromagnetic radiation includes controlling of one or both of an illumination intensity and/or an illumination direction of at least one light source. 9. The method of claim 6 , wherein the radiation scattering structures included in a wall include one or both of non-uniformities within the wall and/or non-uniformities on a surface of the wall. 10. The method of claim 6 , wherein affecting the incidence angle between the one or more light sources and the at least one camera includes the emitted electromagnetic radiation substantially having an angle of incidence between the one or more light sources and the at least one camera of less than 40 degrees.