Security guards at big facilities, such as airports, monitor multiple screens that display images from individual surveillance cameras dispersed throughout the facility. If a guard zooms with a particular camera, he will lose image resolution, along with perspective on the surrounding area. Embodiments of the inventive Imaging System for Immersive Surveillance (ISIS) solve these problems by combining multiple cameras in one device. When properly mounted, example ISIS systems offer 360-degree, 100-megapixel views on a single screen. (Other resolutions may also be employed.) Image-stitching software merges multiple video feeds into one scene. The system also allows operators to tag and follow targets, and can monitor restricted areas and sound an alert when intruders breach them.

A monitoring apparatus obtains image data captured by an image capturing apparatus, generates a background image based on the image data, performs detection processing including detection of a moving object using the image data and the background image, and sets a continuing time until the detected moving object comes to rest and is then handled as a background based on a condition concerning detection processing.

Provided is a safety scanner that enables simplification of an operation of checking an operating state. The safety scanner includes a scan image generation section that generates a scan image that includes a plurality of sets of distance measurement information obtained by performing scanning with a detection light emitted by an emitter, the plurality of sets of distance measurement information being represented as a plurality of distance measurement positions on a scanning plane of the detection light, and a monitoring image display that displays the scan image on a screen.

Disclosed are system and processes that provide for community security systems. These community security systems integrate technology, community resources, and people to deter, prevent, or minimize the impact of intrusion, invasion, or unlawful entry to the community. An integrated management security system, an alert tower system, and a detection device system can communicate in real time to provide alerts regarding the presence of unauthorized, dangerous, reckless, or otherwise undesired vehicles or activities to members of an associated community.

Methods, systems, and devices for a smart monitoring system are described. A system may include a camera-enabled device configured to monitor a physical environment using the camera-enabled device. The system may detect a trigger in the physical environment based on the monitoring, where the trigger includes an object, a person, an event, or any combination thereof. The system may select, based on the detecting, a direction of a set of directions to emit light via a light emitting source. The system may activate the light emitting source based on the selecting. The system may emit, via the light emitting source, the light in the direction based on the activating and the detected trigger. The techniques described herein may deter an intruder from an intended action (e.g., theft, property damage, etc.) and/or provide lighting to a user of the security and automation system, among other benefits.

An image processing sensor system functions as a standalone unit to capture images and process the resulting signals to detect objects or events of interest. The processing significantly improves selectivity and specificity of detection objects and events in a series of motions that may precede a patient who is at elevated risk of falling.

An imaging device capable of detecting differences with low power consumption is provided. The imaging device includes a pixel including a photoelectric conversion element and a transistor; an analog processing circuit; and a digital processing circuit. The imaging device is operated in a first mode and a second mode. In the first mode, the analog processing circuit detects a difference between first imaging data taken by the pixel and second imaging data taken by the pixel and generates a trigger signal on the basis of the value of the difference. In the second mode, the digital processing circuit converts third imaging data taken by the pixel into digital data. Switching from the first mode to the second mode is performed on the basis of the trigger signal.

A monitoring camera having artificial intelligence includes an imaging unit, a communication unit that receives a parameter relating to a detection target from a terminal device, and a processing unit that constructs the artificial intelligence based on the parameter, and uses the constructed artificial intelligence to detect the detection target from an image captured by the imaging unit.

A monitoring system can detect and react to abnormal events in real-time is disclosed. The system includes: a receiver that receives the event related data from a plurality of sensors; a coverage analyzer that analyses predetermined data and the event related data from the receiver, the predetermined data including sensor coverage information; and a sensor selector coupled to the coverage analyzer that selects one or more of the plurality of sensors based on the analysis by the coverage analyzer.

An electronic device and a control method therefor are disclosed. A method for controlling an electronic device according to the present invention comprises the steps of: receiving a current frame; determining a region, within the current frame, where there is a movement, on the basis of a prior frame and the current frame; inputting the current frame into an artificial intelligence learning model on the basis of the region where there is the movement, to obtain information relating to at least one object included in the current frame; and determining the object included in the region where there is the movement, by using the obtained information relating to the at least one object. Therefore, electronic device can rapidly determine an object included in a frame configuring a captured image.