Abstract: Systems and methods for virtualized computing or cloud-computing network with distributed input devices and at least one remote server computer for automatically analyzing received video, audio and/or image inputs for providing social security and/or surveillance for a surveillance environment, surveillance event, and/or surveillance target.

Abstract: Systems and methods for detecting a presence of a person, robot or object in a given area using a hybrid Lighting and Inventory (“LI”) system. The methods comprise: maintaining a data store of identifiers for first tags that are readable by an internal circuit of at least one light provider; tracking (a) changes in which of said first tags are read by the at least one light provider's internal circuit during consecutive tag read processes and (b) changes in power levels of tag read signals received at the at least one light provider during the consecutive tag read processes; and using tracked information (a) and (b) to detect the presence of the person, robot or object in the given area.

Abstract: Systems and methods for cloud-based surveillance for an operation area are disclosed. At least two input capture devices, at least one safety control device and at least one user device are communicatively connected to a cloud-based analytics platform. The cloud-based analytics platform automatically generates 3-Dimensional (3D) surveillance data based on received 2-Dimensional (2D) video and/or image inputs and perform advanced analytics and activates the at least one safety control device based on analytics data from advanced analytics.

Abstract: A system and method for transcoding and mixing of video data in a security video distribution system for a video security system in response to selection of video data. User devices such as mobile user devices can select displayed video data streams sent from the video security system and create new views of the selected video data streams without the prior steps of configuring and pushing new views from a server within the system. At the time of selection, user devices can specify operations to perform on the selected video data, such as zoom and combine. In a preferred embodiment, transcoding and mixing of video data streams within the security video distribution system utilizes shared memory between processes. This has advantages not only in equipment cost savings and efficiency, but also provides for real-time collaboration and sharing of video content in a video security system using mobile user devices.

Abstract: Systems and methods for operating a security tag. The methods comprise: performing communication operations by the security tag at a communications frequency; using a receive circuit of the security tag to harvest energy emitted from a transmit circuit of an external device at an energy harvesting frequency. The communications frequency is out of band of the energy harvesting frequency.

Abstract: Systems and methods for managing local data for input capture devices (ICDs) over communication network are disclosed. At least one ICD and at least one user device are connected to a cloud-based analytics platform communicatively over a network. The at least one ICD has at least one visual sensor and built-in storage that captures and stores visual data at the built-in storage. The cloud-based analytics platform accesses to the visual data stored at the built-in storage and performs analytics for the captured visual data and generates analytics data. An authorized user is able to view live visual data and manage stored visual data at the at least one ICD via the at least one user device.

Abstract: The present invention concerns surveillance systems that flag the potential threats automatically using intelligent systems. It can then notify or automatically alert the security personnel of impending dangers. Such a system can lower the cognitive load on the security personnel and can assist them to bring to prioritize their attention to potential threats and thereby improve the overall efficiency of the system. There could also be savings in labor cost.

Abstract: A detaching device for releasing a tack body from a tag housing is disclosed. the detaching device includes a housing, a handle pivotally mounted to the housing and configured to pivot about a handle axis. The device further includes a detacher translation mechanism configured to move a detacher portion from a first non-release position to a second release position, wherein the detacher translation mechanism converts rotational movement of the handle about the handle axis to rotational movement of the detacher portion about a first axis, wherein when the detacher portion moves to the second release position, the detacher portion is configured to be received by a receiving portion of the tag housing thus releasing the tack body from the tag housing.

Abstract: Systems and methods for finding tags which are unreadable at a particular time. The methods comprise: performing first operations by a first mobile tag reader to read tags at a first time and to determine physical locations of the tags which were read at the first time; and performing second operations by the first mobile tag reader or a second mobile tag reader at a second later time for determining a first geographic area in which a first tag which is unreadable resides. The second operations comprise: analyzing tag read data associated with the first operations to identify second tags which were read along with the first tag on a previous occasion; and selecting the first geographic area to comprise a second geographic area defined by the physical locations of the second tags which were determined during the first operations by the first mobile tag reader.

Abstract: Techniques for detecting physical conditions at a physical premises from collection of sensor information from plural sensors execute one or more unsupervised learning models to continually analyze the collected sensor information to produce operational states of sensor information, produce sequences of state transitions, detect during the continual analysis of sensor data that one or more of the sequences of state transitions is a drift sequence, correlate determined drift state sequence to a stored determined condition at the premises, and generate an alert based on the determined condition. Various uses are described for these techniques.

Abstract: Systems and methods for synchronizing operations of incompatible systems. The methods comprise: programming receiver operations of a Power Supply (“PS”) so that PS is interoperable with a first system of the incompatible systems; receiving by PS a wireless universal synchronization signal from a beacon of the first system; determining, by PS, a value for a phase offset setting of an internal signal conditioner circuit based on information contained in the wireless universal synchronization signal; generating a phase shifted Alternating Current (“AC”) signal by applying a phase offset to an input AC power signal in accordance with the determined value for the phase offset setting; buffering the phase shifted AC signal to generate an output AC power signal; and using a zero crossing of the output AC power signal to synchronize transmit and receive operations of a second system of the incompatible systems with the first system's transmit and receive operations.

Abstract: Techniques for detecting physical conditions at a physical premises from collection of sensor information from plural sensors execute one or more unsupervised learning models to continually analyze the collected sensor information to produce operational states of sensor information, produce sequences of state transitions, detect during the continual analysis of sensor data that one or more of the sequences of state transitions is a drift sequence, correlate determined drift state sequence to a stored determined condition at the premises, and generate an alert based on the determined condition. Various uses are described for these techniques.

Abstract: A computer device for configuring an alarm system comprises at least one sound measuring device and a processor configured to receive from the sound measuring device an ambient noise level at a plurality of measuring locations in a building, determine for each of the plurality of the measuring locations, a target alert sound level of an alert generated by at least one of a plurality of alerting devices based at least in part on the ambient noise level at the respective measuring location, receive an actual sound output value of the alert at each of the plurality of measuring locations from one or more of the plurality of alerting devices, and adjust a sound output of each of the plurality of alerting devices by an adjustment value based on the actual sound output values and the target alert sound levels.

Abstract: Disclosed are techniques for managing provisioning of a service. The techniques include requesting identity credentials from a device having a PII wallet for identity credentials of a potential user of the service, receiving the requested identity credentials, sending the received requested identity credentials to an identity and access management system, receiving a decision regarding verification of the requested identity credentials from the identity and access management system, and producing a notification in response to the received decision.

Abstract: A mesh network-based environmental data capture system and method for providing communication between a base system having at least one wireless input capture device ICD(s) and other ICD(s), wherein the ICD(s) are capable of smart cross-communication with each other and remote access to their inputs via a server computer, including the steps of providing this base system; at least one user accessing the ICDs and inputs remotely via a user interface through a remote server computer and/or electronic device communicating with it, for providing a secure surveillance system with extended inputs range and wireless smart cross-communication for monitoring a target environment.

Abstract: A security device configured to be secured to an article. The security device includes a tag having an expandable portion with a retracted dimension and an expanded dimension. Applying a first removal force to the tag in an attempt to remove the security device from the article releases the expandable portion causing a dimension of the tag to increase from the retracted dimension to the expanded dimension.

Abstract: A method for configuring a sensor tag includes printing one or more antennas on a flexible substrate layer using a conductive ink; depositing one or more sensors on the flexible substrate layer, where at least one of the one or more sensors is deposited to make electric contact with at least one of the one or more antennas; and applying a coating layer over the one or more sensors.

Abstract: Examples described herein generally relate to a system for monitoring customers in a retail environment. The system includes a plurality of cameras located in different regions of the retail environment, each camera configured to capture a video feed of a respective region. The system includes a computer system comprising a memory and a processor. The system provides the video feed of at least one region of the retail environment to a plurality of machine learning classifiers, each machine learning classifier trained on labeled videos to classify a sequence of images of a customer into a probability certainty of a respective activity being performed by the customer. The system applies the probability certainties of the respective activities of a customer to a set of business rules to determine whether customer activities identified by the probability certainties indicate suspicious behavior. The system provides a notification of the suspicious behavior to a worker.

Abstract: A surveillance system monitors a predetermined environment based on received data. The surveillance system includes a first intelligent appliance configured to capture video and/or still images and configured to be in wireless communication with a second intelligent appliance that operates based on data from the first intelligent appliance. The surveillance system can detect a person located within the predetermined environment and can track the person's movement. The surveillance system is configured to allow remote viewing of data and/or controlling cameras.

Abstract: A surveillance system monitors a predetermined environment based on received data. The surveillance system includes a first intelligent appliance configured to capture video and/or still images and configured to be in wireless communication with a second intelligent appliance that operates based on data from the first intelligent appliance. The surveillance system can detect a person located within the predetermined environment and can track the person's movement. The surveillance system is configured to allow remote viewing of data and/or controlling cameras.