Automated asset management system with multiple sensing technologies

The invention claimed is: 1. An automated asset management system comprising: a plurality of storage locations for storing objects; first and second sensing subsystems each configured to sense presence or absence of the objects in the plurality of storage locations of the asset management system, wherein the first and second sensing subsystems are configured to sense the presence or absence of a same particular object in the asset management system using different respective first and second sensing modalities; a processor; and a non-transitory machine readable recording medium storing program instructions which, when executed by the processor, cause the processor to: perform a scan of the storage locations using the first sensing subsystem, and determine the presence or absence of the particular object in the plurality of storage locations using the first sensing modality of the first sensing subsystem, and perform a scan of the storage locations using the second sensing subsystem, and confirm the presence or absence of the particular object in the plurality of storage locations using both the result of the determination made using the first sensing modality and a determination of the presence or absence of the particular object using the second sensing modality of the second sensing subsystem, wherein the first sensing subsystem includes optical identification sensors, and wherein the second sensing subsystem is operative to differentiate between objects that are not differentiated by the first sensing subsystem. 2. The automated asset management system of claim 1 , wherein the second sensing subsystem is further configured to read unique identifiers from objects present in the asset management system. 3. The automated asset management system of claim 2 , wherein the second sensing subsystem is configured to read unique identifiers stored in radio frequency (RF) identification (RFID) tags associated with objects present in the asset management system. 4. The automated asset management system of claim 2 , wherein the second sensing subsystem is configured to read unique identifiers stored in bar-code or quick response (QR) code tags associated with objects present in the asset management system. 5. The automated asset management system of claim 4 , wherein the first sensing subsystem is a camera-based image sensing subsystem comprising one or more cameras, the second sensing subsystem is a tag sensing subsystem for sensing bar-code or quick response (QR) code tags associated with objects in the asset management system, and the first and second sensing subsystems use the same one or more cameras for performing scans of the storage locations using the first and second sensing modalities. 6. The automated asset management system of claim 1 , wherein the first sensing subsystem is a camera-based image sensing subsystem comprising one or more cameras, and is configured to determine the presence or absence of a particular tool using a camera-based visual sensing modality by capturing an image of a storage location associated with the particular tool and determining whether the tool is present in the captured image, and the second sensing subsystem is a radio frequency (RF)-based sensing subsystem comprising one or more RF identification (RFID) transceivers, and is configured to determine the presence or absence of the particular tool using an RF-based wireless sensing modality used to sense whether an RF-based tag associated with the particular tool is present in the asset management system. 7. The automated asset management system of claim 6 , wherein the processor is configured to determine a total number of RF-based tags that are expected to be present in the asset management system using the first sensing modality, and performs the scan of the storage locations using the RF-based sensing subsystem to identify the determined total number of RF-based tags in the asset management system. 8. The automated asset management system of claim 7 , wherein the RF-based sensing subsystem is used to confirm the presence or absence of the particular object using both the result of the determination made by the camera-based visual sensing modality and the RF-based wireless sensing modality. 9. The automated asset management system of claim 2 , wherein the second sensing subsystem is configured to read unique identifiers encoded in tags affixed to objects present in the asset management system. 10. The automated asset management system of claim 9 , wherein the unique identifiers are encoded in uni-dimensional or multi-dimensional bar-codes on the tags affixed to the surfaces of the objects present in the asset management system. 11. A method comprising: performing, using a first sensing subsystem, a first scan of a plurality of storage locations for storing objects in an automated asset management system having the first sensing subsystem and a second sensing subsystem each configured to sense presence or absence of the objects in the plurality of storage locations; determine, based on a result of the first scan, presence or absence of a particular object in the plurality of storage locations using a first sensing modality of the first sensing subsystem; performing, using the second sensing subsystem, a second scan of the plurality of storage locations; and confirming the presence or absence of the particular object in the plurality of storage locations using both a result of the determination made using the first sensing modality and a determination of the presence or absence of the particular object using a second sensing modality of the second sensing subsystem, wherein the first and second sensing subsystems are configured to sense the presence or absence of a same particular object in the asset management system using different respective first and second sensing modalities, wherein the first sensing subsystem includes optical identification sensors, and wherein the second sensing subsystem is operative to differentiate between objects that are not differentiated by the first sensing subsystem. 12. The method of claim 11 , wherein the performing of the second scan comprises reading, using the second sensing subsystem, unique identifiers from objects present in the asset management system. 13. The method of claim 12 , wherein the performing of the second scan comprises reading, using the second sensing subsystem, unique identifiers stored in radio frequency (RF) identification (RFID) tags associated with objects present in the asset management system. 14. The method of claim 12 , wherein the performing of the second scan comprises reading, using the second sensing subsystem, unique identifiers stored in bar-code or quick response (QR) code tags associated with objects present in the asset management system. 15. The method of claim 14 , wherein the first sensing subsystem is a camera-based image sensing subsystem comprising one or more cameras, the second sensing subsystem is a tag sensing subsystem for sensing bar-code or quick response (QR) code tags associated with objects in the asset management system, and the first and second sensing subsystems use the same one or more cameras for performing the first and second scans of the storage locations using the first and second sensing modalities. 16. The method of claim 11 , wherein the first sensing subsystem is a camera-based image sensing subsystem comprising one or more cameras, the performing the first scan comprises capturing an image of a storage location associated with the particular object, and the determining the presence or absence of the partic