A mounting base for use with a wirelessly locatable tag may include a base portion defining a latching member configured to engage a wirelessly locatable tag to releasably retain the wirelessly locatable tag to the mounting base, a contact block attached to the base portion and configured to be positioned at least partially within a battery cavity of the wirelessly locatable tag, the contact block defining a top side and a peripheral side. The mounting base may further include a first conductive member positioned along the peripheral side of the contact block and configured to contact a first battery contact in the battery cavity of the wirelessly locatable tag, a second conductive member outwardly biased from the top side of the contact block, the second conductive member configured to contact a second battery contact in the battery cavity of the tag, and a power cable coupled to the base portion.

A work glove including a dorsal section, a strap section, a trigger and a holder for an electronic module. The dorsal section includes a first opening on the side-of-the-hand edge and the strap section extends from the thumb-side edge or the dorsal section includes a first opening on the thumb-side edge and the strap section extends from the side-of-the-hand edge of the dorsal section. The strap section passes through the first opening and a portion of the strap section that passed through the first opening fastens the dorsal section detachably. Moreover, a wearable sensor device is shown.

Apparatuses, systems, and methods of manufacturing are described that provide improved tag identification. An example system includes a radio-frequency identification (RFID) scanner that receives a stream of RFID tags each associated with a respective article. The system further includes a first sensor attached to the RFID scanner that generates first positional data and a second sensor positioned separate from the first sensor that generates second positional data. The system also includes a computing device communicably coupled with the RFID scanner, the first sensor, and the second sensor. The computing device receives the stream of RFID tags, receives first positional data from the first sensor, receives second positional data from the second sensor, and determines an intended RFID tag from amongst the stream of RFID tags based upon the first positional data and the second positional data.

A portable RFID tag reading system to be carried by an operator and including a reader with associated processing, the processing being programmed to record as a set the identity of all of the RFID tags in the range of the reader when the reader finds a specific RFID tag and to detect movement of the operator after the specific RFID tag is found by recognizing a change in RFID tags seen by the reader from the recorded set.

A system for sharing copyrighted digital content, including a first device configured to be worn by a user, the first device comprising an index system to manage digital content stored on, streamed to, or transmitted to the first device. At least one mechanism is included for sensory playback of the digital content. At least one mechanism is included for forming a wireless local network with at least one second device. In embodiments, an active RFID reader is also included, for use with an object containing a passive RFID tag. The RFID tag functions to perform at least one of: authorize use of the digital content by the first device; act as an index decision node input; authorize the first device and the at least one second device to form the wireless local network; and authorize use of mechanical and software features and functions of the first device.

In aspects of a RFID-based hand sensory apparatus for monitoring handled inventory, a wearable article is worn by a user who moves items, or a container of items, and each of the items has an RFID tag. A tracking system implemented in the wearable article includes force sensors to register a force on an item or the container, and includes a motion sensor to sense motion of the wearable article. Tracking logic of the tracking system initiates an RFID reader to interrogate the RFID tags of the items based on the registered force on the item or the container, and based on the motion of the wearable article. The RFID reader may be integrated in a wearable article, may be an external device, and/or may be affixed to the container of items and initiated when the container is moved.

Aspects of the present disclosure include methods, systems, and non-transitory computer readable media for transmitting at least one incident radar signal, receiving at least one reflected radar signal in response to the at least one incident radar signal reflected from a person associated with the RFID tag, determining a first movement vector of the person based on the reflected radar signal, transmitting at least one incident RFID signal, receiving at least one backscattered RFID signal from the RFID tag, determining a second movement vector of the RFID tag based on at least one phase measurement of the at least one backscattered RFID signal, and determining whether the RFID tag is associated with the person based on the first movement vector and the second movement vector.

Apparatus and methods are provided for automatically interrogating a tagged object using radio frequency identification (RFID) when the object is moved. In one embodiment, a worker is outfitted with a wearable RFID system including an RF antenna, an RFID reader, and a holder to hold the antenna and reader during operation. The system is worn by the worker while the worker moves objects from one place to another. When the worker moves an object with an attached RFID tag, the antenna automatically begins scanning for signals from the object's RFID tag. When a RF signal is received by the antenna, the RFID reader collects the signal and transmits it to a host system which processes the signal to obtain information related to the object to which the RFID tag is attached.

The person monitoring system is a proximity surveillance system. The person monitoring system comprises an interrogator, a tag, and an accessory. A communication link is established between the interrogator and the tag at predetermined, but not necessarily regular, intervals to ensure that the tag is in the proximity of the interrogator. The tag is attached to an accessory. The person monitoring system is adapted for use with a first person and a second person. The first person carries the interrogator. The second person wears the accessory with the tag. Should the communication link fail to be established, the interrogator initiates an alarm informing the first person that the second person is no longer nearby.

A wearable RFID device may include one or more manually activated RFID tags configured to transmit unique RFID signals in response to a manual activation thereof. Such wearable RFID devices may be worn about any aspect of a user's body, such as a hand, a wrist or an arm of the user, who may contact the manually activated RFID tag and transmit an RFID signal that is consistent with a particular action or instruction associated with a task. The action or the instruction may be executed based on the RFID signal, or upon receiving a confluence or sequence of RFID signals. Additionally, a wearable RFID device may be recognized by one or more discrete systems and configured to operate such systems accordingly.