Pathloss drop trusted agent misbehavior detection

What is claimed is: 1. At least one non-transitory machine-readable storage medium, comprising a plurality of instructions that, responsive to being executed with processor circuitry of a computing device, cause the computing device to: receive an untrusted signal from an untrusted mobile source at a first trusted source, the untrusted signal indicating that the untrusted mobile source is within range of the first trusted source; receive a first trusted signal from a second trusted source at the first trusted source; identify a first line-of-sight (LOS) signal occlusion of the first trusted signal, the first LOS signal occlusion indicating the untrusted mobile source passed between the first trusted source and the second trusted source; and assign a trust score based on the untrusted signal and the LOS signal occlusion. 2. The non-transitory machine-readable storage medium of claim 1 , the instructions further causing the computing device to: extract a reported mobile source location of the untrusted mobile source from the untrusted signal; and determine the reported mobile source location is within a LOS region, the LOS region including the direct LOS path between the first trusted source and the second trusted source; wherein the assignment of the trust score includes increasing the trust score based on the determination that the reported mobile source location is within the LOS region. 3. The non-transitory machine-readable storage medium of claim 1 , the instructions further causing the computing device to: receive a second trusted signal from the second trusted source at a third trusted source; identify a second LOS signal occlusion of the second trusted signal, the second LOS signal occlusion indicating the untrusted mobile source passed between the second trusted source and the third trusted source; and assign a revised trust score based on the untrusted signal and the LOS signal occlusion. 4. The non-transitory machine-readable storage medium of claim 1 , the instructions further causing the computing device to: identify a first untrusted signal strength maximum of the untrusted signal; and identify a first proximate time associated with the first untrusted signal strength maximum, the first proximate time indicating when the untrusted mobile source is closest to the first trusted source; wherein the assignment of the trust score is further based on the first proximate time. 5. The non-transitory machine-readable storage medium of claim 1 , the instructions further causing the computing device to determine a radio environment attenuation based on a first transmit power and a first received power of the first trusted signal, wherein the identification of the first LOS signal occlusion is further based on the radio environment attenuation. 6. The non-transitory machine-readable storage medium of claim 1 , wherein: the first trusted source and the second trusted source are stationary; and the first LOS signal occlusion includes a momentary signal strength drop within the first trusted signal, the momentary signal strength drop lasting less than one second. 7. The non-transitory machine-readable storage medium of claim 1 , wherein: the first trusted source and the second trusted source are mobile; and the first LOS signal occlusion includes an extended signal strength drop within the first trusted signal, the extended signal strength drop lasting at least one second. 8. A system for determining trusted agent devices, the system comprising: a wireless radio device to: receive an untrusted signal from an untrusted mobile source at a first trusted source, the untrusted signal indicating that the untrusted mobile source is within range of the first trusted source; and receive a first trusted signal from a second trusted source at the first trusted source; processing circuitry; and a memory that includes instructions, the instructions, when executed by the processing circuitry, cause the processing circuitry to: identify a first line-of-sight (LOS) signal occlusion of the first trusted signal, the first LOS signal occlusion indicating the untrusted mobile source passed between the first trusted source and the second trusted source; and assign a trust score based on the untrusted signal and the LOS signal occlusion. 9. The system of claim 8 , the instructions further causing the processing circuitry to: extract a reported mobile source location of the untrusted mobile source from the untrusted signal; and determine the reported mobile source location is within a LOS region, the LOS region including a direct LOS path between the first trusted source and the second trusted source; wherein the assignment of the trust score includes increasing the trust score based on the determination that the reported mobile source location is within the LOS region. 10. The system of claim 8 , the instructions further causing the processing circuitry to: receive a second trusted signal from the second trusted source at a third trusted source; identify a second LOS signal occlusion of the second trusted signal, the second LOS signal occlusion indicating the untrusted mobile source passed between the second trusted source and the third trusted source; and assign a revised trust score based on the untrusted signal and the LOS signal occlusion. 11. The system of claim 8 , the instructions further causing the processing circuitry to: identify a first untrusted signal strength maximum of the untrusted signal; and identify a first proximate time associated with the first untrusted signal strength maximum, the first proximate time indicating when the untrusted mobile source is closest to the first trusted source; wherein the assignment of the trust score is further based on the first proximate time. 12. The system of claim 8 , the instructions further causing the processing circuitry to determine a radio environment attenuation based on a first transmit power and a first received power of the first trusted signal, wherein the identification of the first LOS signal occlusion is further based on the radio environment attenuation. 13. The system of claim 8 , wherein: the first trusted source and the second trusted source are stationary; and the first LOS signal occlusion includes a momentary signal strength drop within the first trusted signal, the momentary signal strength drop lasting less than one second. 14. The system of claim 8 , wherein: the first trusted source and the second trusted source are mobile; and the first LOS signal occlusion includes an extended signal strength drop within the first trusted signal, the extended signal strength drop lasting at least one second. 15. An apparatus for determining trusted agent devices, the apparatus comprising: means for receiving an untrusted signal from an untrusted mobile source at a first trusted source, the untrusted signal indicating that the untrusted mobile source is within range of the first trusted source; means for receiving a first trusted signal from a second trusted source at the first trusted source; means for identifying a first line-of-sight (LOS) signal occlusion of the first trusted signal, the first LOS signal occlusion indicating the untrusted mobile source passed between the first trusted source and the second trusted source; and means for assigning a trust score based on the untrusted signal and the LOS signal occlusion. 16. The apparatus of claim 15 , further including: means for extracting a reported mobile source location of the untrusted mobile source from the untrusted signal; and mea