Gas sensing device and a method for sensing gas

We claim: 1. A gas sensing device for sensing a certain gas that is associated with a certain spectral band, the gas sensing device comprises: a passive gas sensor that is configured to generate passive gas sensor detection signals that are responsive to the certain spectral band; a passive dummy sensor that is configured to generate passive dummy sensor detection signals that are indifferent to the certain spectral band; and at least one circuit that is configured to detect a presence or absence of the certain gas within a certain volume that is located within a field of view of the passive gas sensor and a field of view the passive dummy sensor based on a comparison between the passive gas sensor detection signals and the passive dummy sensor detection signals; wherein a detection of the presence or absence of the certain gas within the certain volume is based on comparisons between passive gas sensor detection signals obtained during multiple measurements and passive dummy sensor detection signals obtained during the multiple measurements; wherein the multiple measurements comprise a first measurement and a second measurement; wherein the first measurement was taken when the gas sensing device was positioned at a first position (a) that is on a floor of a room and facing a ceiling and (b) in which the passive gas sensor has a first optical length; wherein the second measurement was taken when the gas sensing device was positioned at a second position (a) that is on a head of a user and facing the ceiling, and (b) in which the passive gas sensor has a second optical length that differs by a known difference from the first optical length. 2. The gas sensing device according to claim 1 wherein the at least one circuit is configured to detect the presence or absence of the certain gas within the certain volume regardless of the optical length of each one of the passive gas sensor and the passive dummy sensor. 3. The gas sensing device according to claim 1 wherein the at least one circuit is configured to detect the presence or absence of the certain gas within the certain volume based on an optical length of each one of the passive gas sensor and the passive dummy sensor. 4. The gas sensing device according to claim 3 wherein the at least one circuit is configured to receive information about the optical length. 5. The gas sensing device according to claim 1 wherein the at least one circuit is configured to detect the presence or absence of the certain gas within the certain volume based, at least on ambient temperatures. 6. The gas sensing device according to claim 1 wherein the at least one circuit is configured to detect the presence or the absence of the certain gas within the certain volume based on the known difference, a first difference between passive gas sensor detection signals obtained during the first measurement and passive dummy sensor detection signals obtained during the first measurement, and a second difference between passive gas sensor detection signals obtained during the second measurement and passive dummy sensor detection signals obtained during the second measurement. 7. The gas sensing device according to claim 6 wherein the at least one circuit is configured to detect the presence or the absence of the certain gas within the certain volume based on an absolute value of a ratio between the second difference and the first difference. 8. The gas sensing device according to claim 7 wherein the at least one circuit is configured to detect a concentration of the certain gas within the certain volume by: dividing (a) the absolute value of the ratio between the second difference and the first difference, by (b) a product of the known difference multiplied by a gas absorption coefficient of the certain gas at a wavelength of detection of the passive gas sensor. 9. The gas sensing device according to claim 1 wherein the at least one circuit comprises a man machine interface for outputting instructing for positioning the gas sensing device at the first position and for outputting instructions for positioning the gas sensing device at the second position. 10. The gas sensing device according to claim 1 wherein the at least one circuit s configured to calculate the second position. 11. The gas sensing device according to claim 1 wherein the gas sensing device is a smartphone. 12. A method for sensing a certain gas that is associated with a certain spectral band, the method comprises: generating, by a passive gas sensor of a gas sensing device, passive gas sensor detection signals that are responsive to the certain spectral band; generating, by a passive dummy sensor of a gas sensing device, passive dummy sensor detection signals that are indifferent to the certain spectral band; and detecting, by at least one circuit, a presence or absence of the certain gas within a certain volume that is located within a field of view of the passive gas sensor and a field of view of the passive dummy sensor based on a comparison between the passive gas sensor detection signals and the passive dummy sensor detection signals; wherein the detecting of the presence or absence of the certain gas within the certain volume is based on comparisons between passive gas sensor detection signals obtained during multiple measurements and passive dummy sensor detection signals obtained during the multiple measurements; wherein the multiple measurements comprise a first measurement and a second measurement; wherein the first measurement was taken when the gas sensing device was positioned at a first position (a) that is on a floor of a room and facing a ceiling and (b) in which the passive gas sensor has a first optical length; wherein the second measurement was taken when the gas sensing device was positioned at a second position (a) that is on a head of a user and facing the ceiling, and (b) in which the passive gas sensor has a second optical length that differs by a known difference from the first optical length. 13. The method according to claim 12 comprising detecting the presence or absence of the certain gas within the certain volume regardless of the optical length of each one of the passive gas sensor and the passive dummy sensor. 14. The method according to claim 12 comprising detecting the presence or absence of the certain gas within the certain volume based on an optical length of each one of the passive gas sensor and the passive dummy sensor. 15. The method according to claim 14 comprising receiving information about the optical length. 16. The method according to claim 12 comprising detecting the presence or absence of the certain gas within the certain volume based, at least on ambient temperatures. 17. The method according to claim 12 comprising detecting the presence or the absence of the certain gas within the certain volume based on the known difference, a first difference between passive gas sensor detection signals obtained during the first measurement and passive dummy sensor detection signals obtained during the first measurement, and a second difference between passive gas sensor detection signals obtained during the second measurement and passive dummy sensor detection signals obtained during the second measurement. 18. The method according to claim 17 comprising detecting the presence or the absence of the certain gas within the certain volume based on an absolute value of a ratio between the second difference and the first difference. 19. The method according to claim 18 comprising detecting a concentrati