Abstract: Systems (100) and methods (1100) for activating an Electronic Article Surveillance (“EAS”) element deactivator. The methods involve: obtaining customer-related data from a customer of a business organization who is attempting to deactivate an EAS element of at least one item; obtaining transaction data contained in a receipt issued upon completion of a checkout transaction for the customer; communicating the customer-related data, transaction data and a unique identifier for an EAS element deactivation system to a remote computing device; processing the customer-related data and transaction data to obtain confirmation that the customer has recently successfully completed the checkout transaction for the item and the EAS element of the item has not yet been deactivated; and activating the EAS element deactivator of the EAS element deactivation system subsequent to when the confirmation is obtained.

Abstract: Disclosed are techniques to authenticate tags passing through detection regions against an access control list, receive data that identifies a number of people passing through or within the detection regions, compare the number people identified by the received data with the number of tags identified by the system, and cause an alarm to be asserted when a discrepancy is detected in the number people identified with the number of tags in a detection region with personnel within the detection region.

Abstract: Embodiments of intrusion detection systems are described and which include an intrusion detection panel that receives binary and metadata sensor data from which the presence of an alarm condition is detected. In addition sensor devices analyze sensor data received from other sensor devices that are in a peer to peer relationship with the corresponding sensor device to validate whether the indicated alarm condition is a valid alarm or a false alarm.

Abstract: Systems (100) and methods for network node security configuration. The methods involve: performing operations by a mobile communication device (104) to obtain a unique identifier from a network node (108) to be installed at a customer facility (102) via a first short range communication link (110); communicating a signal comprising the unique identifier from the mobile communication device to a remote server (118) via a first long range communication link (112); verifying by the remote server that a correct type of network node is being installed at a first location within the customer facility according to a respective work order; and communicating security information, useful for configuring security functions of the network node, from the remote server to the network node via the mobile communication device, without presenting the security information to a user of the mobile communication device or storing the security information in the mobile communication device.

Abstract: A method and system for activating an EAS element deactivator is provided. At a computer, item data including a physical attribute of an item is received. A determination is made as to whether the item data corresponds to a purchased item in a purchase receipt. When it is determined that the item data corresponds to the purchased item, EAS element deactivator is activated for use.

Abstract: Systems (100) and methods (1400) for verifying a detachment of a security tag (108) from an article. The methods comprise: producing by a detaching unit (106) a first signal at a first frequency and a second signal at a second frequency when the security tag is in proximity thereto; generating, by a non-linear electrical circuit (504) of the security tag, a third signal from the first and second signals applied thereto; ceasing generation of the third signal by the non-linear electrical circuit when at least a first portion (306) of the security tag is moved a certain distance from the detaching unit; and determining by the detaching unit that the first portion of the security tag has been decoupled from a second portion (318) of the security tag when the third signal is no longer being generated by the non-linear electrical circuit.

Abstract: Embodiments of intrusion detection systems are described and which include an intrusion detection panel that receives binary and metadata sensor data from which the presence of an alarm condition is detected. In addition sensor devices analyze sensor data received from other sensor devices that are in a peer to peer relationship with the corresponding sensor device to validate whether the indicated alarm condition is a valid alarm or a false alarm.

Abstract: Systems (100) and methods (500, 600) for adaptively managing power for an Energy Harvesting System (“EHS”). The methods involve: measuring a light intensity level available in a surrounding environment; wirelessly communicating a first wireless signal from the EHS (100) to a remote device (700) for causing the light intensity level to be increased by remotely turning on a light source (106, 108) or opening a cover preventing light emitted from the light source from reaching the EHC, when the light intensity level is below a pre-specified level; using an Energy Harvesting Circuit (“EHC”) to recharge a rechargeable battery (310) when the light intensity level rises above the pre-specified level; and wirelessly communicating a second wireless signal from the EHS to the remote device for causing the light source be turned off or the cover to be closed, when the capacity or state-of-charge of the rechargeable battery reaches a pre-specified value.

Abstract: Systems (100) and methods (200) for dynamically managing Functional Configurations (“FCs”) of network nodes (104, 134-138). The methods involve performing operations by a First End Node (“FEN”) in accordance with a first FC. FEN (104) has a first Software Module (“SM”) stored thereon specifying the first FC. The first SM (122) comprises a total set of codes/functions which determine how a network node is to behave. The first EN detects a trigger event for triggering a transition from the first FC to a second FC. In response to the trigger event, the FEN automatically and dynamically obtains, from a remote network node (134, 136, 138 or 144), a second SM (150 or 126) that is different than the first SM. The first SM (stored on FEN) is then replaced with the second SM. The FEN executes the second SM such that it operates in accordance with the second FC.

Abstract: Systems (100) and methods (200) for dynamically managing Functional Configurations (“FCs”) of network nodes (104, 134-138). The methods involve performing operations by a First End Node (“FEN”) in accordance with a first FC. FEN (104) has a first Software Module (“SM”) stored thereon specifying the first FC. The first SM (122) comprises a total set of codes/functions which determine how a network node is to behave. The first EN detects a trigger event for triggering a transition from the first FC to a second FC. In response to the trigger event, the FEN automatically and dynamically obtains, from a remote network node (134, 136, 138 or 144), a second SM (124 or 126) that is different than the first SM. The first SM (stored on FEN) is then replaced with the second SM. The FEN executes the second SM such that it operates in accordance with the second FC.

Abstract: A people counting system and method for the automatic reconfiguration of a failed people counting sensor device in a people counting system. The system includes a plurality of addressable people counting sensor devices defining a cluster having a master device in communication with at least one slave device, each of the master device and the slave devices having a corresponding Media Access Control (“MAC”) address. The master device is adapted to sequentially transmit power-on commands to each of the slave devices, assign a different node address to each of the slave devices, receive an association of the MAC address of the master device to the node address and MAC address of each of the slave devices to form a cluster configuration, store the cluster configuration as a cluster configuration table, and replicate the cluster configuration table to the slave devices. A dynamic host configuration protocol (DHCP) server assigns an IP public address to the master device.

Abstract: A real-time location and tracking system includes location markers programmed with location information of the locations that the location markers are affixed to and a mobile RTLS tracking system to read location information from nearby location markers and a mobile RTLS monitoring and display system. The system is configured to receive signals from the mobile RTLS tracking system that includes a microprocessor and memory that control the functionality of the mobile RTLS monitoring and display system to display status and geo coordinates of the mobile RTLS tracking system.

Abstract: Disclosed are techniques to authenticate tags passing through detection regions against an access control list, receive data that identifies a number of people passing through or within the detection regions, compare the number people identified by the received data with the number of tags identified by the system, and cause an alarm to be asserted when a discrepancy is detected in the number people identified with the number of tags in a detection region with personnel within the detection region.

Abstract: A networked system for managing a physical intrusion detection/alarm includes an upper tier of server devices, comprising: processor devices and memory in communication with the processor devices, a middle tier of gateway devices that are in communication with upper tier servers, and a lower level tier of devices that comprise fully functional nodes with at least some of the functional nodes including an application layer that execute routines to provide node functions, and a device to manage the lower tier of devices, the device instantiating a program manager that executes a state machine to control the application layer in each of the at least some of the functional nodes.

Abstract: Systems (100) and methods for network node security configuration. The methods involve: performing operations by a mobile communication device (104) to obtain a unique identifier from a network node (108) to be installed at a customer facility (102) via a first short range communication link (110); communicating a signal comprising the unique identifier from the mobile communication device to a remote server (118) via a first long range communication link (112); verifying by the remote server that a correct type of network node is being installed at a first location within the customer facility according to a respective work order; and communicating security information, useful for configuring security functions of the network node, from the remote server to the network node via the mobile communication device, without presenting the security information to a user of the mobile communication device or storing the security information in the mobile communication device.

Abstract: Method for managing mobile point of sale (mPOS) operations using a wireless network to detect location data includes capturing video data of one or more customers within a retail store premises. The video data is analyzed to determine one or more customer behavior indicators potentially indicating a need for mPOS services. The location data is used to correlate the customer behavior indicators with the one or more customers. The method also involves determining a probability that at least one of the customers will be requesting mPOS services within a predetermined interval of time.

Abstract: Embodiments of intrusion detection systems are described and which include an intrusion detection panel that receives binary and metadata sensor data from which the presence of an alarm condition is detected. In addition sensor devices analyze sensor data received from other sensor devices that are in a peer to peer relationship with the corresponding sensor device to validate whether the indicated alarm condition is a valid alarm or a false alarm.

Abstract: Described is a system that includes a queue cluster including first network devices that cooperate to communicate with end nodes of a network and to store information from the end nodes in memory, a processing cluster comprising second network devices that cooperate to perform one or more tasks on the information from the queue cluster, and a database cluster including third network devices that cooperate to provide storage for use by the processing cluster, with the queue cluster, the processing cluster, and the database cluster being part of a local network that is connectable to an external network, the local network including a wireless mesh network and for the one or more tasks, a network device among the second network devices is selected as a leader responsible for task execution.

Abstract: A surveillance system includes one or more camera systems at least some of the camera systems including a camera element comprising optical components to capture and process light to produce images, camera processing circuitry that receives the light and processes the into electrical signals and encodes the signals into a defined format, power management circuitry to power the camera system, the power management system including first and second power interfaces and first and second video output interfaces.

Abstract: Systems and methods for operating a security tag of an Electronic Article Surveillance (“EAS”) system. The methods involve providing a unique identifier from the security tag to an application installed on a mobile communication device via a first short-range communication when the security tag is attached to an article for sale. A second short-range communication is received by the security tag from the mobile communication device that comprises a detachment command. The detachment command is received by the security tag exclusively after the article has been successfully purchased. Thereafter, the security tag verifies that the second short-range communication is intended to be processed thereby. Next, the security tag performs operations to actuate a detachment mechanism in response to the detachment command so that the security tag can be detached from the article for sale.