Automated asset management system with multiple sensing technologies

What is claimed is: 1 . 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 configured to sense presence or absence of the objects in the plurality of storage locations; determining, based on a result of the first scan, presence or absence of at least one object in the plurality of storage locations using the first sensing subsystem; setting a parameter for a second scan of the plurality of storage locations based on the result of the first scan; performing the second scan of the plurality of storage locations, according to the parameter set based on the result of the first scan, to sense presence or absence of the objects in the plurality of storage locations; and determining, based on the result of the first scan and a result of the second scan, presence or absence of objects in the plurality of storage locations. 2 . The method of claim 1 , wherein the automated asset management system includes a second sensing subsystem configured to sense presence or absence of the objects in the plurality of storage locations using a second sensing modality different from a first sensing modality of the first sensing subsystem, the second scan is performed using the second sensing subsystem, and the presence or absence of objects in the plurality of storage locations is determined based on results of the first and second scans performed using the different first and second sensing modalities. 3 . The method of claim 2 , wherein the first sensing subsystem is a camera-based sensing subsystem, and the second sensing subsystem is a radio frequency (RF) identification (RFID)-based sensing subsystem. 4 . The method of claim 1 , wherein objects stored in the automated asset management system have associated RF-based tags, and the setting the parameter for the second scan comprises determining how many RF-based tags associated with objects are expected to be sensed in the tool storage system during the second scan. 5 . The method of claim 1 , wherein the setting the parameter for the second scan comprises determining a number of objects expected to be sensed during the second scan based on the result of the first scan and setting the parameter for the second scan to the determined number of objects, and the performing the second scan comprises repeating the second scan until the determined number of objects expected to be sensed are sensed using the second scan. 6 . The method of claim 5 , wherein the performing the second scan comprises reading unique identifiers from objects present in the asset management system. 7 . The method of claim 6 , wherein the performing the second scan comprises reading unique identifiers stored in radio frequency (RF) identification (RFID) tags associated with objects present in the asset management system. 8 . The method of claim 6 , wherein the performing the second scan comprises reading unique identifiers stored in bar-code or quick response (QR) code tags associated with objects present in the asset management system. 9 . An automated asset management system comprising: a plurality of storage locations for storing objects; a first sensing subsystem configured to sense presence or absence of the objects in the plurality of storage locations of the asset management system; a processor; and a non-transitory machine readable recording medium storing program instructions which, when executed by the processor, cause the processor to: perform, using the first sensing subsystem, a first scan of the plurality of storage locations for storing objects in the automated asset management system; determine, based on a result of the first scan, presence or absence of at least one object in the plurality of storage locations using the first sensing subsystem; set a parameter for a second scan of the plurality of storage locations based on the result of the first scan; perform the second scan of the plurality of storage locations according to the parameter set based on the result of the first scan to sense presence or absence of the objects in the plurality of storage locations; and determine, based on the result of the first scan and a result of the second scan, presence or absence of objects in the plurality of storage locations 10 . The automated asset management system of claim 9 , further comprising: a second sensing subsystem configured to sense presence or absence of the objects in the plurality of storage locations using a second sensing modality different from a first sensing modality of the first sensing subsystem, wherein the second scan is performed using the second sensing subsystem, and wherein the presence or absence of objects in the plurality of storage locations is determined based on results of the first and second scans performed using the different first and second sensing modalities. 11 . The automated asset management system of claim 10 , wherein the first sensing subsystem is a camera-based sensing subsystem, and the second sensing subsystem is a radio frequency (RF) identification (RFID)-based sensing subsystem. 12 . The automated asset management system of claim 9 , wherein objects stored in the automated asset management system have associated RF-based tags, and the setting the parameter for the second scan comprises determining how many RF-based tags associated with objects are expected to be sensed in the tool storage system during the second scan. 13 . The automated asset management system of claim 9 , wherein the setting the parameter for the second scan comprises determining a number of objects expected to be sensed during the second scan based on the result of the first scan and setting the parameter for the second scan to the determined number of objects, and the performing the second scan comprises repeating the second scan until the determined number of objects expected to be sensed are sensed using the second scan. 14 . The automated asset management system of claim 13 , wherein the performing the second scan comprises reading unique identifiers from objects present in the asset management system. 15 . The automated asset management system of claim 14 , wherein the performing the second scan comprises reading unique identifiers stored in radio frequency (RF) identification (RFID) tags associated with objects present in the asset management system. 16 . The automated asset management system of claim 14 , wherein the performing the second scan comprises reading unique identifiers stored in bar-code or quick response (QR) code tags associated with objects present in the asset management system.