A preconfiguration system preconfigures tracking devices before they are received by a user of the tracking devices. The preconfiguration system generates an activation signal that can be detected by an activation signal detector on a tracking device. Upon detecting the activation signal, the tracking device begins to operate in a preconfiguration mode and establishes a communicative connection with the preconfiguration system. The preconfiguration system can then communicate with the tracking device to perform a variety of tasks, including receiving a tracking device identifier from the tracking device so that the tracking device identifier can be associated with the user identifier for the user who purchased the tracking device.

Disclosed herein are methods and systems for producing and processing transportation and shipping documents. Embodiments thereof effectively utilize a combination of accurate data collection of vehicle loaded packaging/parts departing a location at, e.g., an exit portal of dock, creation of an electronic BOL populated with that accurate data and other shipping information, which can launch an efficient over the road capability from initial journey to destination with enhanced visibility throughout.

A control unit, in a disclosed embodiment, includes a transceiver, memory, and a processor. The processor is coupled to the transceiver and memory and executes instructions from the memory to cause the control unit to receive a first transmission containing a certificate, verify the authenticity of the certificate, and, after verifying authenticity of the certificate, execute a public key agreement protocol to generate a first common secret encryption key, receive a second transmission containing an encrypted first public key that is encrypted by the first common secret encryption key, decrypt the encrypted first public key using the first common secret encryption key to determine the first public key, execute a public key agreement protocol to generate a second common secret encryption key, generate an operational key, encrypt the operational key using the second common secret encryption key, and transmit the encrypted operational key.

Systems and methods for programming pluggable transceivers are provided. In an embodiment, a method includes receiving RFID data from an RFID device in proximity to a network transceiver via an RFID antenna in the network transceiver, said RFID data defining an operating configuration of the network transceiver; and programming the network transceiver according to the operating configuration defined by the received RFID data. In an embodiment, a network transceiver includes: a host interface for connecting to a host; a network interface for transmitting and receiving signals to and from a network; an RFID antenna for receiving RFID data; and a controller in operative communication with the network interface and the RFID antenna, said controller operating the network interface according to an operating configuration, wherein the operating configuration of the controller is programmed using the RFID data received via the RFID antenna. Various other embodiments are also provided.

An RFID tag for use in a vehicle for use in an electronic toll collecting system. The tag is capable of transmitting data to a tag interrogator indicating the occupancy status of the vehicle. In an embodiment, the tag has a user input and a visual and audible tag status indicator. The user input is used to change the occupancy status of the tag, wherein the occupancy status is a portion of a message sent by radio frequency to the interrogator when the vehicle passes through a toll area.

An RFID reader with a software radio that is aesthetically pleasing and powered using existing electrical systems comprising a component housing, a microprocessor, a communications protocol IC, an RFID interrogator integrated circuit, a power source, a light source, a heat removal means and one or more than one antenna connected to the microprocessor for communicating RFID data and control data over a protocol.

A method for retiring a RFID copy sheet using an imaging device having a scanner system and a printer system, each system having a RFID reader programmer. The RFID copy sheet to be retired is scanned using one of the RFID reader programmers. After determining that the user is authorized to retire the RFID copy sheet, the RFID copy sheet is rescanned by a RFID reader programmer and its associated RFID tag is reprogrammed to indicate that the RFID copy sheet is retired. Document control of the retired RFID copy sheet may also be provided using a document lifecycle database that is updated with the retired status of the RFID copy sheet.

A radio frequency device utilizing an antenna having a single antenna structure resonant on multiple resonant frequency ranges. The antenna can be configured to operate within multiple frequency ranges for communication according to respective protocols associated with the respective frequency ranges.

There is provided in one embodiment a data collection system including a data collection terminal having an encoded information reader device and a computer spaced apart from the data collection terminal. The data collection terminal in one embodiment can be configured to be responsive to configuration data expressed in an extensible markup language.

Systems and related methods providing for determining activities of individuals are discussed herein. Circuitry may be configured to wirelessly receive tag signals from a plurality of RF location tags. Two or more of the RF location tags may be positioned on an individual, such as at positions that may at least partially define a human frame. The circuitry may be configured to correlate the two or more RF location tags with the individual. Location data for each of the two or more RF location tags may be determined based on the received tag signals. An activity of the individual may be determined based on the location data. In some embodiments, one or more activities involving multiple individuals may be determined based on RF location tags and sensors positioned on each of the multiple individuals. Furthermore, sensor data from the sensors may be communicated over the UWB channel.