The embodiments of the present disclosure provide a system for calculating a regional crowd movement and a method thereof. The system is applied to a target monitoring environment, a plurality of key travel nodes are planned in the target monitoring environment, and the system includes radio frequency labels deployed on pedestrians, calculation apparatuses deployed at the key travel nodes and a plurality of directional antennas. The directional antenna is configured to, when driven by the calculation apparatus, send a read-write signal to the radio frequency label in a coverage region; the directional antenna is further configured to forward a radio frequency signal simultaneously reflected by the radio frequency label at the time of obtaining the read-write signal to the calculation apparatus; the calculation apparatus is configured to, based on a tempo-spatial distribution circumstance of the radio frequency signals in the region.

An aspect of the present disclosure is related to a medication dispensing device that includes a housing with an interior. A plurality of cartridge slots are located in the interior, and each of the cartridge slots includes a drive mechanism. A plurality of cartridges are removably disposed in respective ones of the cartridge slots. Each cartridge includes a stationary hub and a rotational wheel. The stationary hub has a window, and the rotational wheel has a plurality of medication chambers that contain medications. The rotational wheel is disposed in the stationary hub. The drive mechanism of the respective cartridge slot is operably connected with the drive wheel and is configured to rotate the rotational wheel relative to the stationary hub to selectively align the medication chambers with the window to dispense the medications contained in the medication chambers out of the cartridge.

Multiple sensing network units are deployed overhead in a venue. Each unit supports a motion detecting system for detecting a level of motion in a zone of the venue, and an RFID locationing system for reading RFID tags in the venue, in response to the motion level detected by the motion detecting system. The performance of the RFID locationing system is adjusted and optimized in response to the detected motion level.

Consistent with disclosed embodiments, systems, methods, and computer readable media for electronic security systems for preventing theft of returned goods may be provided. Embodiments may include an electronic article surveillance (EAS) gate in an establishment and at least one receiver configured to receive transmissions from wirelessly transmitting tags. Embodiments may also include at least one processor configured to receive, from a mobile communications device associated with a previous purchaser, a notification of intent to return a previously purchased product to the establishment; identify a unique tag ID of a specific wirelessly transmitting tag associated with the previously purchased product; update a data structure to indicate that the previously purchased product was returned to the establishment; and enable an ability to initiate an alarm when the at least one receiver receives a transmission from the specific tag associated with the previously purchased product in proximity to the EAS gate.

The navigational system comprises a plurality of mobile and stationary telemetry-devices, recording spatial data-artifacts, transmitting forecasted positional phase-changes, density point clustering schema that Maptrac's each transport imechanixm; providing calculated digital navigation directives transmitted to a plurality of devices equipped with pAvics, Obvipro and/or other certified compliant telemetry-devices, attached to and or carried by humans, motorcycles, bicycles, skis, snow boards and or a plurality of transport imechanixms; telematic-data of each transmits collected data-relics through a subnaysys network-topology provided by telemetry mobility, viewable and/or audibly heard on iNavX2 virtual interface and or iNavCom centers and/or a facilities interface.

A method for coordinating reader transmissions according to one embodiment includes, at a first reader, receiving from a second reader a request to transmit to a radio frequency identification tag; and if the first reader is transmitting, sending a denial of the request from the first reader to the second reader. A method for coordinating reader transmissions according to another embodiment includes from a first reader, sending to a plurality of readers a request to transmit to a radio frequency identification tag; waiting for responses from the plurality of readers; if a denial of the request is received by the first reader from any of the readers, not transmitting to the radio frequency identification tag; and if no denial of the request is received by the first reader from any of the readers, transmitting to the radio frequency identification tag. Additional systems, methods and computer program products are presented.

A detection apparatus and material handling vehicle are operable to identify an article as being that which is situated on a platform of the material handling vehicle or is about to be situated on the platform, measures a weight of the article, and communicates to an enterprise data system a data record that includes an identification of the article and the associated weight. The article is one of a number of articles that are situated in the vicinity of the material handling vehicle.

A identification information acquisition system provided in a working vehicle includes: a plurality of identification devices; and a plurality of communication devices that communicate with the plurality of identification devices. The plurality of communication devices include a first communication device and a second communication device, an operation of which is controlled by the first communication device. The first communication device is disposed at a first position and the second communication device is disposed at a second position in a working vehicle, a temperature at the first position being lower than a temperature at the second position.

A system and method for performing a package status check are provided, including a scanner for use in a surgical field and having an antenna for emitting a radio frequency detection field, the scanner including control circuitry configured to determine a predetermined quantity of sponges corresponding to a complete pack of sponges; count a number of sponges associated with the pack with the scanner prior to use of the sponges in a surgical field; and issue an alert when a number of counted sponges does not match the predetermined quantity corresponding to the complete pack. The system and method may include the control circuitry configured to determine whether a sponge has been re-scanned or is unknown by comparing detected information with previously detected information prior.

Methods and systems receive location identification tokens from transmitters using a portable computerized device. A first location identification token is received from a first location transmitting device, while the portable computerized device is within a predetermined distance from a designated location. A second location identification token is received from a second location transmitting device. A current location signature is calculated using the first and second location identification tokens. A previously stored location signature associated with the first and second location identification tokens is obtained from a computer readable storage medium. The current location signature is compared with the previously stored location signature to determine a similarity measure. The location identification tokens and the current location signature are stored in a memory and transmitted to a server. The presence of the portable computerized device at the designated location is verified based on the location identification tokens and the current location signature.