An animal tag that contains first and second three-dimensional accelerometers and a processing unit, where the first accelerometer registers a first acceleration vector describing a spatial movement of a first position of the animal tag, and the second accelerometer registers a second acceleration vector describing a spatial movement of a second position of the animal tag, the second position separated from the first position by a distance, and the processing unit receives the first and second acceleration vectors and based thereon determines at least one behavior-related parameter for an animal carrying the animal tag in the form of inclination angle(s) (ψ, Φ, θ) of the animal tag relative to a reference frame external to the animal tag, and/or an elevation of the animal tag relative to a reference level external to the animal tag.

An animal tag that contains first and second three-dimensional accelerometers and a processing unit, where the first accelerometer registers a first acceleration vector describing a spatial movement of a first position of the animal tag, and the second accelerometer registers a second acceleration vector describing a spatial movement of a second position of the animal tag, the second position separated from the first position by a distance, and the processing unit receives the first and second acceleration vectors and based thereon determines at least one behavior-related parameter for an animal carrying the animal tag in the form of inclination angle(s) (ψ, Φ, θ) of the animal tag relative to a reference frame external to the animal tag, and/or an elevation of the animal tag relative to a reference level external to the animal tag.

Sensor intended to be positioned on a mobile portion of a deployable structure, and to emit an information signal to a transmission unit intended to be positioned on a fixed portion of the deployable structure, such that the sensor comprises a wireless emitter/receiver configured to receive an incident signal originating from the transmitting unit when the deployable structure is in a folded position; a processing logic unit adapted to decide on the emission of the information signal to the transmission unit by the wireless emitter/receiver; a standalone energy source configured to power the processing logic unit.

Sensor intended to be positioned on a mobile portion of a deployable structure, and to emit an information signal to a transmission unit intended to be positioned on a fixed portion of the deployable structure, such that the sensor comprises a wireless emitter/receiver configured to receive an incident signal originating from the transmitting unit when the deployable structure is in a folded position; a processing logic unit adapted to decide on the emission of the information signal to the transmission unit by the wireless emitter/receiver; a standalone energy source configured to power the processing logic unit.

A system for cabling infrastructure that includes at least one port, at least one shutter, at least one sensor and a gateway is provided. The port is configured to be selectively coupled to a connector. Each shutter is configured to have an open state that allows access to an associated port and a closed state that covers the port. Each sensor is configured to sense the open state and the closed state of an associated shutter and generate shutter state signals that include information relating to a current sensed state of the associated shutter and an identification of a port that is associated with the associated shutter. The gateway is in wireless communication with each sensor to receive the shutter state signals. The gateway is configured to communicate the shutter state signals that indicate a change in a state of an associated shutter to a remote location.

A system for cabling infrastructure that includes at least one port, at least one shutter, at least one sensor and a gateway is provided. The port is configured to be selectively coupled to a connector. Each shutter is configured to have an open state that allows access to an associated port and a closed state that covers the port. Each sensor is configured to sense the open state and the closed state of an associated shutter and generate shutter state signals that include information relating to a current sensed state of the associated shutter and an identification of a port that is associated with the associated shutter. The gateway is in wireless communication with each sensor to receive the shutter state signals. The gateway is configured to communicate the shutter state signals that indicate a change in a state of an associated shutter to a remote location.

An electronic control unit provided in a vehicle is provided. The electronic control unit comprises a communication unit for receiving information on vehicle electronic devices from one or more vehicle electronic devices provided in the vehicle, and a processor for selecting the information on vehicle electronic devices from any one of the vehicle electronic devices in response to occurrence of an event and controlling the communication unit to first transmit the selected information to a server.

An electronic control unit provided in a vehicle is provided. The electronic control unit comprises a communication unit for receiving information on vehicle electronic devices from one or more vehicle electronic devices provided in the vehicle, and a processor for selecting the information on vehicle electronic devices from any one of the vehicle electronic devices in response to occurrence of an event and controlling the communication unit to first transmit the selected information to a server.

A portable thermal insulated apparatus for cooling or heating items stored therein. The thermal insulated apparatus includes a container having a lid that removably secures to an open first end thereof and a reservoir unit that removably secures to an open second end. The container includes an inner tube and an outer tube forming an insulated double-wall sealed at both ends in which the lid and reservoir unit can be connected thereto. The reservoir unit removably receives a thermal unit that provides cooling or heating to the contents of the container when affixed thereto. The thermal unit is separable from the reservoir unit, such that the thermal units are interchangeable as needed. In some embodiments, the thermal unit is directly securable to the lid and the second end of the container is permanently sealed.

A portable thermal insulated apparatus for cooling or heating items stored therein. The thermal insulated apparatus includes a container having a lid that removably secures to an open first end thereof and a reservoir unit that removably secures to an open second end. The container includes an inner tube and an outer tube forming an insulated double-wall sealed at both ends in which the lid and reservoir unit can be connected thereto. The reservoir unit removably receives a thermal unit that provides cooling or heating to the contents of the container when affixed thereto. The thermal unit is separable from the reservoir unit, such that the thermal units are interchangeable as needed. In some embodiments, the thermal unit is directly securable to the lid and the second end of the container is permanently sealed.