Aiming a device at a target within a use environment is described. An intensity level of ambient lighting associated with the use environment is detected and a corresponding signal is generated. An emission of a beam operable for the aiming of the device is controlled. Upon the generated signal corr
Aiming a device at a target within a use environment is described. An intensity level of ambient lighting associated with the use environment is detected and a corresponding signal is generated. An emission of a beam operable for the aiming of the device is controlled. Upon the generated signal corresponding to a first detected ambient lighting intensity level, a first laser is activated to emit the aiming beam at a first power intensity level. Upon the generated signal corresponding to a second detected ambient lighting intensity level, which exceeds the second detected ambient lighting intensity level, a second laser is activated to emit the aiming beam at a second power intensity level. The first power intensity level exceeds the second power intensity level.
대표청구항▼
1. A method for aiming a device at a target within a use environment, the method comprising the steps of: detecting an intensity level of ambient lighting associated with the use environment;generating a signal corresponding to the detected ambient lighting intensity level; andcontrolling an emissio
1. A method for aiming a device at a target within a use environment, the method comprising the steps of: detecting an intensity level of ambient lighting associated with the use environment;generating a signal corresponding to the detected ambient lighting intensity level; andcontrolling an emission of a beam operable for the aiming of the device, wherein:upon the generated signal corresponding to a first detected ambient lighting intensity level, the controlling of the emission comprises activating a first laser to emit the aiming beam at a first power intensity level; andupon the generated signal corresponding to a second detected ambient lighting intensity level, wherein the first detected ambient lighting intensity level exceeds the second detected ambient lighting intensity level, the controlling of the emission comprises activating a second laser to emit the aiming beam at a second power intensity level, wherein the first power intensity level exceeds the second power intensity level. 2. The method as described in claim 1 wherein the use environment comprises an outdoor setting, wherein the first detected ambient lighting intensity level corresponds to the outdoor setting. 3. The method as described in claim 1 wherein the use environment comprises an indoor setting, wherein the second detected ambient lighting intensity level corresponds to the indoor setting. 4. The method as described in claim 1 wherein the step of detecting of the intensity level comprises measuring an intensity value characterizing the detected intensity level of the ambient lighting associated with the use environment. 5. The method as described in claim 4 wherein the step of detecting of the intensity level further comprises comparing the measured intensity level with a programmed or predetermined threshold value. 6. The method as described in claim 5 wherein, based on the comparison of the measured intensity level, the step of detecting of the intensity level further comprises determining that the measured intensity level exceeds the programmed or predetermined threshold value. 7. The method as described in claim 5 wherein, based on the comparison of the measured intensity level, the step of detecting of the intensity level further comprises determining that the programmed or predetermined threshold exceeds the value measured intensity level. 8. A non-transitory computer-readable storage medium comprising instructions, which when executed by one or more processors causes, configures, controls, or programs a method for aiming a device at a target within a use environment, the aiming method comprising the steps of: detecting an intensity level of ambient lighting associated with the use environment;generating a signal corresponding to the detected ambient lighting intensity level; andcontrolling an emission of a beam operable for the aiming of the device, wherein:upon the generated signal corresponding to a first detected ambient lighting intensity level, the controlling of the emission comprises activating a first laser to emit the aiming beam at a first power intensity level; andupon the generated signal corresponding to a second detected ambient lighting intensity level, wherein the first detected ambient lighting intensity level exceeds the second detected ambient lighting intensity level, the controlling of the emission comprises activating a second laser to emit the aiming beam at a second power intensity level, wherein the first power intensity level exceeds the second power intensity level. 9. A system for aiming a device disposed in a use environment, the system comprising: a sensor operable for detecting an intensity level of ambient lighting associated with the use environment, and for generating a signal corresponding to the detected ambient lighting intensity level;a first laser operable for emitting a first aiming beam, the first aiming beam comprising a first power intensity level;a second laser operable for emitting a second aiming beam, the second aiming beam comprising a second power intensity level, wherein the first power intensity level exceeds the second power intensity level; anda processor operable for responding to the generated signal, wherein:upon the generated signal corresponding to a first detected ambient lighting intensity level, for activating the first laser to emit the first aiming beam; andupon the generated signal corresponding to a second detected ambient lighting intensity level, wherein the first detected ambient lighting intensity level exceeds the second detected ambient lighting intensity level, for activating the second laser to emit the second aiming beam. 10. The system as described in claim 9 wherein the use environment comprises one or more of: an outdoor setting, wherein the first detected ambient lighting intensity level corresponds to the outdoor setting;or an indoor setting, wherein the second detected ambient lighting intensity level corresponds to the indoor setting. 11. The system as described in claim 9 wherein the detection of the intensity level comprises measuring an intensity value characterizing the detected intensity level of the ambient lighting associated with the use environment. 12. The system as described in claim 11 wherein the detection of the intensity level further comprises comparing the measured intensity level with a programmed or predetermined threshold value. 13. The system as described in claim 12 wherein, based on the comparison of the measured intensity level, the detection of the intensity level of the ambient lighting level further comprises at least one of: determining that the measured intensity level exceeds the programmed or predetermined threshold value; ordetermining that the programmed or predetermined threshold value exceeds the measured intensity level. 14. The system as described in claim 9 wherein the second laser comprises a Class 2 laser device, as classified in relation to a standard of the International Electrotechnical Commission (IEC) standards authority, the standard comprising ‘IEC 60825-1’. 15. The system as described in claim 9 wherein the first power intensity level of the first laser exceeds one or more of: a maximum power intensity value specified for compliance with a Class 2 classification under the ‘IEC 60825-1’ Standard of the International Electrotechnical Commission (IEC) standards authority; orone Milliwatt (1 mW), continuous wave (CW), at one or more wavelengths disposed over the range of 400 to 700 nanometers (400-700 nm), inclusive. 16. The system as described in claim 9, further comprising: a mobile device; anda platform coupled communicatively with the mobile device and comprising the first laser, wherein the second laser comprises a component of at least one of the platform or the mobile device. 17. The system as described in claim 16 wherein the device aimed by the system and disposed in the use environment comprises the mobile device. 18. The system as described in claim 16 wherein the device comprises one or more applications operable for performing at least one automatic identification and data capture (AIDC) related function, wherein the AIDC function is operable, at least in part, based on aiming the mobile device with at least one of the first aiming beam or the second aiming beam.
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