A device for communicating a system status visually is disclosed. The device comprises a primary indicator and a secondary indicator, and in an embodiment comprises a surround indicator and a tail indicator. Both indicators allow light to pass through a translucent portion to be visible by a user, and the device utilizes illumination elements such as multicolor LEDs to present the indicators in colors to communicate system status or a data category to inform a user about the system with simplified color signals easily perceived at a distance. The device can be configured to accept multiple sensor or signal inputs and control one or more powered devices to effect feedback control of a system variable, e.g. temperature. The tail indicator can change colors to communicate a data category provided by a signal input. The surround indicator can change colors to communicate a system status.

A device for communicating a system status visually is disclosed. The device comprises a primary indicator and a secondary indicator, and in an embodiment comprises a surround indicator and a tail indicator. Both indicators allow light to pass through a translucent portion to be visible by a user, and the device utilizes illumination elements such as multicolor LEDs to present the indicators in colors to communicate system status or a data category to inform a user about the system with simplified color signals easily perceived at a distance. The device can be configured to accept multiple sensor or signal inputs and control one or more powered devices to effect feedback control of a system variable, e.g. temperature. The tail indicator can change colors to communicate a data category provided by a signal input. The surround indicator can change colors to communicate a system status.

The present specification describes a telescopic thermometer that allows a user to measure surface or air temperature in hardly accessible places. The telescopic thermometer includes a telescopic body with a temperature sensor attached at remote end of the telescopic body and a magnet used to temporarily attach the thermometer to a place near the place of measurement for hands free operation. A display unit at user end displays the temperature readings received from the sensor. The temperature readings are transmitted to a networked device for storing and processing.

Embodiments include a thermometer for measuring a temperature of a living being, including inside a cavity or on an external surface of the living being. The thermometer includes a temperature sensing probe coupled to the proximal end of the housing, a power source, light source, and processor. The light source can be configured to illuminate a portion of the housing near the temperature sensing probe. In some embodiments, the light source is configured to emit light in a plurality of colors. At least one of the plurality of colors may be indicative of a pre-measurement state. Some of the plurality of colors can be indicative of a specific temperature range. In some embodiments, the processor is operatively coupled to the power source, the temperature sensing probe, and the light source.

Embodiments include a thermometer for measuring a temperature of a living being, including inside a cavity or on an external surface of the living being. The thermometer includes a temperature sensing probe coupled to the proximal end of the housing, a power source, light source, and processor. The light source can be configured to illuminate a portion of the housing near the temperature sensing probe. In some embodiments, the light source is configured to emit light in a plurality of colors. At least one of the plurality of colors may be indicative of a pre-measurement state. Some of the plurality of colors can be indicative of a specific temperature range. In some embodiments, the processor is operatively coupled to the power source, the temperature sensing probe, and the light source.

A gauge including a housing, a measuring port, an opening formed in the housing and a cover for covering the opening. The cover of the gauge is selected from a range of flexible and translucent materials.

A gauge including a housing, a measuring port, an opening formed in the housing and a cover for covering the opening. The cover of the gauge is selected from a range of flexible and translucent materials.

Various examples are provided related to high-resolution sediment sensing including, e.g., water depth and/or water velocity sensing. In one example, a sediment dynamics monitoring system for scour, erosion or deposition detection includes a fiber-optic distributed temperature sensing (FO-DTS) sediment dynamics monitoring device including a support structure; a FO cable providing continuous sensing along a length of the support structure; and a heating element collocated along the FO cable; a power controller configured to control heating of the heating element; and a DTS system that can measure a temperature profile along a length of the FO cable. An anomaly in the measured temperature profile indicates an interface surrounding the FO-DTS sediment dynamics monitoring device. interface can be a sediment-water interface or a water-air interface.

A temperature gauge display and a method of using the same to determine whether a saturated steam temperature is as it should be or if the saturated steam temperature is in the unacceptable subcooled range. The gauge display embodies a dial face providing a pointer movable along the dial face in the clockwise directions for indicating steam system temperature while an arcuate colored portion is located along a portion of the path of the pointer so that the pointer, the dial face, and the colored portion visually cooperate to indicate sufficient operation of the system being monitored, wherein the colored portion defines a subcooled range of saturated steam temperature for a specific saturated steam pressure.

A temperature gauge display and a method of using the same to determine whether a saturated steam temperature is as it should be or if the saturated steam temperature is in the unacceptable subcooled range. The gauge display embodies a dial face providing a pointer movable along the dial face in the clockwise directions for indicating steam system temperature while an arcuate colored portion is located along a portion of the path of the pointer so that the pointer, the dial face, and the colored portion visually cooperate to indicate sufficient operation of the system being monitored, wherein the colored portion defines a subcooled range of saturated steam temperature for a specific saturated steam pressure.