A display device, for a hybrid vehicle for displaying an output relating to traveling of the hybrid vehicle, includes a first region and a second region. The first region indicates the output in a first mode in which an internal combustion engine is stopped and the vehicle travels using an electric motor. The second region indicates the output in a second mode in which the internal combustion engine is operated to travel. The first region includes a third region positioned close to the second region and indicating the output at which the internal combustion engine possibly starts up.

A display device, for a hybrid vehicle for displaying an output relating to traveling of the hybrid vehicle, includes a first region and a second region. The first region indicates the output in a first mode in which an internal combustion engine is stopped and the vehicle travels using an electric motor. The second region indicates the output in a second mode in which the internal combustion engine is operated to travel. The first region includes a third region positioned close to the second region and indicating the output at which the internal combustion engine possibly starts up.

A physiological monitor gauge panel defines parameters to display on a physiological monitor via corresponding gauges. Gauge faces depict a range of parameter values for each of the parameters. An indicator designates a position on each gauge face corresponding to the current parameter value within the range of parameter values. The indicated position on each of the gauges is at the mid-point of each of the gauge faces when each of the parameters is at a nominal value.

A physiological monitor gauge panel defines parameters to display on a physiological monitor via corresponding gauges. Gauge faces depict a range of parameter values for each of the parameters. An indicator designates a position on each gauge face corresponding to the current parameter value within the range of parameter values. The indicated position on each of the gauges is at the mid-point of each of the gauge faces when each of the parameters is at a nominal value.

Efficient and effective internal material property monitoring systems and methods are presented. In one embodiment, a method for monitoring variations in an internal material property of an object comprises sensing variations in a characteristic over time and communicating information on the variations in the characteristic from within the object to a remote component, wherein the communication is wireless. The characteristic is related to an internal material property of an object and the variations are sensed from within the object. The characteristic can be related to a parameter associated with the material property. The characteristic can be one of a plurality of characteristics sensed, and the sensed variations are associated with a plurality of various material characteristics of a material in the object (e.g., material properties related to a composite material, etc.). A plurality of data points can be collected and the plurality of data points correspond to the sensing of the characteristic. In one embodiment, an analysis of the information is performed and a visualization is presented of the characteristic being sensed over time. The variations can be mapped to physical propertied of a material in the object.

Efficient and effective internal material property monitoring systems and methods are presented. In one embodiment, a method for monitoring variations in an internal material property of an object comprises sensing variations in a characteristic over time and communicating information on the variations in the characteristic from within the object to a remote component, wherein the communication is wireless. The characteristic is related to an internal material property of an object and the variations are sensed from within the object. The characteristic can be related to a parameter associated with the material property. The characteristic can be one of a plurality of characteristics sensed, and the sensed variations are associated with a plurality of various material characteristics of a material in the object (e.g., material properties related to a composite material, etc.). A plurality of data points can be collected and the plurality of data points correspond to the sensing of the characteristic. In one embodiment, an analysis of the information is performed and a visualization is presented of the characteristic being sensed over time. The variations can be mapped to physical propertied of a material in the object.

A display unit for a hybrid vehicle having at least one internal combustion engine-powered drive and at least one electric motor-powered drive, includes the following components: a first electronic determining module for determining the proportion of the current or averaged total fuel consumption used for charging the energy accumulator for the electric motor-powered drive, and/or for determining the proportion of the current or averaged total fuel consumption used to drive the hybrid vehicle; and a first display element for displaying at least this determined charge-fuel proportion and/or this determined drive-fuel proportion, in addition to the total fuel consumption.

A display unit for a hybrid vehicle having at least one internal combustion engine-powered drive and at least one electric motor-powered drive, includes the following components: a first electronic determining module for determining the proportion of the current or averaged total fuel consumption used for charging the energy accumulator for the electric motor-powered drive, and/or for determining the proportion of the current or averaged total fuel consumption used to drive the hybrid vehicle; and a first display element for displaying at least this determined charge-fuel proportion and/or this determined drive-fuel proportion, in addition to the total fuel consumption.

The present disclosure relates to a method for parameterizing a field device of process automation technology, comprising at least the following steps: parameterizing a mapping of the field device, wherein the mapping is executed as field-device-specific software on an interpreter, especially a software emulator; wherein the interpreter is executed on a host and there is no connection between host and field device during parameterization, and transmitting the parameterization generated via the mapping to the field device.

The present disclosure relates to a method for parameterizing a field device of process automation technology, comprising at least the following steps: parameterizing a mapping of the field device, wherein the mapping is executed as field-device-specific software on an interpreter, especially a software emulator; wherein the interpreter is executed on a host and there is no connection between host and field device during parameterization, and transmitting the parameterization generated via the mapping to the field device.