Abstract: A near-infrared sensitive video camera comprises a control unit configured to: dynamically detect a setting of the camera, the setting being one or more of: a zoom level, a focus setting and a setting of an IR-illuminator of camera. The control unit dynamically acquires a gain setting map for an image sensor, the acquired gain setting map being associated with the dynamically detected setting of the camera and comprising individual gain settings of the image sensor. Dynamically acquiring the gain setting map comprises accessing a database of gain setting maps associated with specific settings of the camera and on the dynamically detected setting of the camera; and dynamically adjusting a gain setting of the image sensor based on the acquired gain setting map.

Abstract: A method according to the invention for connecting a monitoring device to a service server may comprise retrieving an address relating to a control server from a memory of the monitoring device, sending a connection message from the monitoring device to the address relating to a control server in response to a connecting event, extracting, at the control server, an identifier from the communication between the monitoring device and the control server, identifying, at the control server, a service server associated with the extracted identifier, sending an address relating to the identified service server from the control server to the monitoring device, sending a connection message from the monitoring device to the identified service server in response to the receipt of the address related to the identified service server, establishing a service connection between the monitoring device and the identified server.

Abstract: Methods and devices for protecting personal privacy in captured image data by controlling privacy masking of an image, where the degree of blurring to be applied to a privacy area of the image depends on a threshold distance from the image capturing device, and the spatial resolution of content of the scene at this distance in the image.

Abstract: An image capturing device captures a first image of the scene without illuminating the scene with IR radiation. The image capturing device determines a first value of a measure relating to contrast for the first image. When the first value indicates that a first contrast of the first image less than a first threshold value, the image capturing device captures a second image of the scene while illuminating the scene with IR radiation. The image capturing device determines a second value of the measure relating to contrast for the second image. When a difference between the first contrast and a second contrast, indicated by the second value, is greater than a second threshold value, the image capturing device determines that there is fog in the scene. A computer program and a computer program carrier are also disclosed.

Abstract: A device includes a lens assembly to focus an image or to optically zoom, a sensor array to capture an image; a memory to store instructions; and a processor to execute the instructions. The processor may execute the instructions to: cause the sensor array to capture an image; determining a field of view in the captured image; obtain parameter values based on sensor measurements associated with the captured image; obtain a digital zoom profile and an optical zoom profile based on the parameter values, the captured image, and the field of view; and jointly apply the digital zoom profile and the optical zoom profile to set the camera to the received zoom request for the field of view.

Abstract: A camera housing arrangement comprising a camera housing member having a camera housing member extension plane, a camera housing mounting member defining a mounting plane, an abutment, and a pivot joint comprising: a hook portion associated with the camera housing member and a pivot axis portion associated with the camera housing mounting member. The camera housing member is movable by means of articulation about the pivot joint between a first end position in which the camera housing member extension plane is tilted with respect to said mounting plane, and a second end position in which the camera housing member extension plane is aligned with said mounting plane. The abutment is associated with the camera housing member and cooperates with the camera housing mounting member when the camera housing member is in said first end position such that the abutment engages the camera housing mounting member to preventing disconnection.

Abstract: A camera assembly includes a housing and a transparent dome, and it is configured to receive at least one camera head arranged in the housing, inside the transparent dome. The housing comprises a cooling arrangement having a heat dissipation portion arranged within the housing and extending through the dome, and the heat dissipation portion is made from a material configured to transfer heat efficiently. Furthermore, the cooling arrangement comprises a channel for airflow.

Abstract: A camera assembly with a camera dome, a camera housing, has a plurality of camera heads arranged inside the housing and the dome. Each camera head is arranged in a camera support which is movable around a center of the camera assembly and each camera support has a first, inner, follower portion configured to engage a first, inner, guide portion of the camera housing. Furthermore, each camera support has a second, outer, follower portion configured to engage a second, outer, guide portion of the camera housing. The camera support also comprises a camera head fixture connecting the first follower portion with the second follower portion. Each follower portion is arranged to slide in the corresponding guide portion.

Abstract: The present teachings relate to the field of video encoding. In particular, the present teachings relate to a method, device, and system for encoding a sequence of frames wherein a motion level of image data of an initial frame in the sequence of frames is determined to be below a motion level threshold. The encoding method described herein may reduce the bit rate for the encoded sequence of frames, while avoiding that the encoded video stream looks unnatural or frozen when decoded and displayed.

Abstract: A method of calibrating a pan, tilt, zoom (PTZ) camera with a fixed camera utilizing an overview image of a scene captured by the fixed camera, and an image of the scene captured by the PTZ camera when directed in a first direction. By matching features in the overview image and the PTZ camera image, a first calibration is carried out by correlating the first direction to matching features in the overview image. A mapping between the PTZ camera image and the overview image is defined based on the matching features. The mapping is used to map an object from the PTZ camera image to the overview image. Based on an appearance of the mapped object, a quality of the mapping is calculated. If the quality is not good enough, the PTZ camera is redirected to a second direction, and a further calibration is carried out by again.

Abstract: An alignment member for alignment of a sensor board relative an optics unit where the alignment member is arranged to couple the sensor board to the optics unit. The alignment member comprises: a section formed by a thermoplastic material and arranged to support the sensor board; and a heating element which upon activation is arranged to transfer heat to the section such that the section at least partly is heated to a temperature being at least the glass transition temperature for the thermoplastic material for enabling alignment of the sensor board relative the optics unit. A camera arrangement comprises a sensor board, an optics unit, and an alignment member. A method for aligning a sensor board relative an optics unit.

Abstract: A method for pseudo coloring of a digital single-channel image is disclosed. The method comprises acquiring a single-channel image having an intensity distribution, forming a first channel of a multi-channel image by performing a first histogram equalization of the intensity distribution, forming a second channel of the multi-channel image by performing a second, different, histogram equalization of the intensity distribution, wherein the first channel and the second channel of the multi-channel image represent different components of a color model. An arrangement for providing a pseudo coloring of a digital single-channel image is also disclosed, and a monitoring thermal camera system comprising such an arrangement.

Abstract: A method calibrates a camera having image sensor having a center position. An image view projected onto the image sensor by a lens is captured. At least one image view boundary of the captured image view is detected. A projection center position corresponding to a center of the projected image view is determined in at least one dimension. Offset between the projection center position and a sensor center position is determined, defined in at least one dimension, corresponding to the center of the image sensor capturing the projected image view. The image sensor is moved in relation to the lens based on the offset in order to arrive at a substantially zero offset in at least one dimension between the center of image sensor and the center of the projected image view.