Inventory tracking tags, system and method for prolonging battery life

What is claimed is: 1. A method of prolonging battery life of an inventory tracking tag, the tag including a battery, a position detection subsystem, a cellular communication subsystem, and a short-range communication subsystem, method comprising: determining location data regarding the location of the inventory tracking tag using the position detection subsystem; transmitting the location data to a remote server over a cellular data connection using the cellular communication subsystem; identifying, by the remote server, based on the location data and stored data regarding short-range communication networks coverage areas, that the inventory tracking tag is located within a first coverage area of a first short-range communication network; receiving an instruction message over the cellular data connection from the remote server, the instruction message including information identifying the first short-range communication network; and in response to the instruction message, disabling the cellular communication subsystem, storing the information identifying the first short-range communication network in memory, entering a sleep mode, and at a next reporting interval: enabling the short-range communication subsystem, and requesting a connection to the first short-range communication network for the purpose of sending future location reports to the remote server. 2. The method of claim 1 , wherein determining location data includes at least one of determining geographic coordinates using a global navigation satellite system, identifying a cellular tower with which the inventory tracking tag is in communication, or performing triangulation based on communications with a plurality of cellular towers. 3. The method of claim 1 , wherein the instruction message includes the information identifying the first short-range communication network and credentials for the first short-range communication network, and wherein requesting a connection includes providing the credentials to access the first short-range communication network. 4. The method of claim 1 , wherein the short-range communication subsystem does not scan for available networks when the cellular communication subsystem is enabled. 5. The method of claim 1 , wherein the first short-range communication network includes one of a WiFi™ network, a Bluetooth network, an RFID network, a Zigbee™ network, a Sigfox™ network, or LoRaWAN™ network. 6. A system comprising an inventory tracking tag and a remote server, the inventory tracking tag comprising: a battery; a position detection subsystem to determine location data regarding the location of the inventory tracking tag; a cellular communication subsystem to transmit the location data to a remote server over a cellular data connection and to receive an instruction message from the remote server, the instruction message including information identifying a first short-range communication network; a short-range communication subsystem; and a controller to, in response to the instruction message, disable the cellular communication subsystem, store the instruction message in memory, enter a sleep mode, and at a next reporting interval: enable the short-range communication subsystem, and cause the short-range communication subsystem to connect to the first short-range communication network for the purpose of sending future location reports to the remote serve; and wherein the remote server is configured to identify, based on the location data and stored data regarding short-range communication networks coverage areas, that the inventory tracking tag is located within a first coverage area of the first short-range communication network. 7. The system of claim 6 , wherein the position detection subsystem is to determine location data by determining at least one of determining geographic coordinates using a global navigation satellite system, identifying a cellular tower with which the inventory tracking tag is in communication, or performing triangulation based on communications with a plurality of cellular towers. 8. The system of claim 6 , wherein the instruction message includes the information identifying the first short-range communication network and credentials for the first short-range communication network, and wherein the controller causes the short-range communication subsystem to request a connection by providing the credentials to access the first short-range communication network. 9. The system of claim 6 , wherein the short-range communication subsystem does not scan for available networks when the cellular communication subsystem is enabled. 10. The system of claim 6 , wherein the first short-range communication network includes one of a WiFi™ network, a Bluetooth network, an RFID network, a Zigbee™ network, a Sigfox™ network, or LoRaWAN™ network.