Systems and methods for likelihood-based mapping of areas surveyed for gas leaks using mobile survey equipment

What is claimed is: 1. A non-transitory computer-readable medium encoding instructions which, when executed by a computer system comprising at least one processor, cause the at least one processor to: identify a prior 2-D surveyed area according to a first set of gas emission survey data resulting from a first mobile measurement run performed by a mobile measurement device along a first measurement path, the first set of gas emission survey data comprising a trajectory of the first measurement path and a first set of associated atmospheric condition data characterizing the first mobile measurement run; and update the prior 2-D surveyed area to generate a posterior 2-D surveyed area according to a second set of gas emission survey data resulting from a second mobile measurement run, the second set of gas emission survey data comprising a second set of associated atmospheric condition data characterizing the second mobile measurement run, wherein updating the prior 2-D surveyed area comprises determining a posterior probability of missing detection of a potential gas source situated at a given location according to: i. a prior probability of missing detection of the potential gas source situated at the given location after the first mobile measurement run, and ii. a probability of missing detection of the potential gas source situated at the given location during the second mobile measurement run. 2. A computer system comprising at least one processor configured to: identify a prior 2-D surveyed area according to a first set of gas emission survey data resulting from a first mobile measurement run performed by a mobile measurement device along a first measurement path, the first set of gas emission survey data comprising a trajectory of the first measurement path and a first set of associated atmospheric condition data characterizing the first mobile measurement run; and update the prior 2-D surveyed area to generate a posterior 2-D surveyed area according to a second set of gas emission survey data resulting from a second mobile measurement run, the second set of gas emission survey data comprising a second set of associated atmospheric condition data characterizing the second mobile measurement run, wherein updating the prior 2-D surveyed area comprises determining a posterior probability of missing detection of a potential gas source situated at a given location according to: i. a prior probability of missing detection of the potential gas source situated at the given location after the first mobile measurement run, and ii. a probability of missing detection of the potential gas source situated at the given location during the second mobile measurement run. 3. A non-transitory computer-readable medium encoding instructions which, when executed by a computer system comprising at least one processor, cause the at least one processor to: identify a prior 2-D surveyed area according to a first set of gas emission survey data resulting from a first mobile measurement run performed by a mobile measurement device along a first measurement path, the first set of gas emission survey data comprising a trajectory of the first measurement path and a first set of associated atmospheric condition data characterizing the first mobile measurement run, the prior 2-D surveyed area being an area having a boundary determined such that if a potential gas emission source were located in the prior 2-D surveyed area and had a rate of emission meeting a minimum emission rate condition, then an estimated prior probability of detection of the potential gas emission source according to gas concentration data acquired during first mobile measurement run would satisfy a probability condition; and update the prior 2-D surveyed area to generate a posterior 2-D surveyed area according to a second set of gas emission survey data resulting from a second mobile measurement run, wherein updating the prior 2-D surveyed area comprises determining a posterior probability of missing detection of a potential gas source situated at a given location according to a product of: i. a prior probability of missing detection of the potential gas source situated at the given location after the first mobile measurement run, and ii. a probability of missing detection of the potential gas source situated at the given location during the second mobile measurement run. 4. A computer system comprising at least one processor configured to: identify a prior 2-D surveyed area according to a first set of gas emission survey data resulting from a first mobile measurement run performed by a mobile measurement device along a first measurement path, the first set of gas emission survey data comprising a trajectory of the first measurement path and a first set of associated atmospheric condition data characterizing the first mobile measurement run, the prior 2-D surveyed area being an area having a boundary determined such that if a potential gas emission source were located in the prior 2-D surveyed area and had a rate of emission meeting a minimum emission rate condition, then an estimated prior probability of detection of the potential gas emission source according to gas concentration data acquired during first mobile measurement run would satisfy a probability condition; and update the prior 2-D surveyed area to generate a posterior 2-D surveyed area according to a second set of gas emission survey data resulting from a second mobile measurement run, wherein updating the prior 2-D surveyed area comprises determining a posterior probability of missing detection of a potential gas source situated at a given location according to a product of: i. a prior probability of missing detection of the potential gas source situated at the given location after the first mobile measurement run, and ii. a probability of missing detection of the potential gas source situated at the given location during the second mobile measurement run. 5. A non-transitory computer-readable medium encoding instructions which, when executed by a computer system comprising at least one processor, cause the at least one processor to: receive a prior 2-D surveyed area; and update the prior 2-D surveyed area to generate a posterior 2-D surveyed area according to a set of gas emission survey data resulting from a mobile measurement run performed by a mobile measurement device along a measurement path, the set of gas emission survey data reflecting a trajectory of the measurement path and a set of associated atmospheric condition data characterizing the mobile measurement run, wherein the posterior 2-D surveyed area is an area having a boundary such that if a potential gas emission source were located in the posterior 2-D surveyed area and had a rate of emission meeting a minimum emission rate condition, then an estimated posterior probability of detection of the potential gas emission source according to gas concentration data acquired during the mobile measurement run would satisfy a probability condition, and wherein updating the prior 2-D surveyed area comprises determining the posterior probability of missing detection of a potential gas source situated at a given location according to a product of: i. a prior probability, defined by the prior 2-D surveyed area, of missing detection of the potential gas source situated at the given location and ii. a probability of missing detection of the potential gas source situated at the given location during the mobile measurement run. 6. The computer-readable medium of claim 1 , wherein the instructions further cause the at least one processor to identify the posterior 2-D surveyed area according to an atmospheric transport model employing the second set of associated atmospheric condition data. 7. The computer-readable medium of claim 1 , wh