The disclosure relates to measuring a distance from a mobile device to a remote surface. An energy emitter directs an energy signal onto an energy splitter, the energy splitter partitions the energy signal into a first energy beam having a first wavelength and a second energy beam having a second wa
The disclosure relates to measuring a distance from a mobile device to a remote surface. An energy emitter directs an energy signal onto an energy splitter, the energy splitter partitions the energy signal into a first energy beam having a first wavelength and a second energy beam having a second wavelength, a reflector array reflects the first energy beam at a first angle and the second energy beam at a second angle different from the first angle and projects the first energy beam and the second energy beam onto the remote surface, a receiver measures a first propagation time of the first energy beam reflected off of the remote surface and a second propagation time of the second energy beam reflected off of the remote surface, and a processor estimates the distance to the remote surface based on the first propagation time and the second propagation time.
대표청구항▼
1. A method of estimating a distance from a mobile device to a remote surface, comprising: directing, by an energy emitter, an energy signal onto an energy splitter of the mobile device;partitioning, by the energy splitter of the mobile device, the energy signal into a first energy beam having a fir
1. A method of estimating a distance from a mobile device to a remote surface, comprising: directing, by an energy emitter, an energy signal onto an energy splitter of the mobile device;partitioning, by the energy splitter of the mobile device, the energy signal into a first energy beam having a first wavelength and a second energy beam having a second wavelength;reflecting, by a reflector array of the mobile device, the first energy beam at a first angle from the reflector array and the second energy beam at a second angle from the reflector array different from the first angle;projecting, by the reflector array of the mobile device, the first energy beam and the second energy beam onto the remote surface;measuring, by a receiver of the mobile device, a first propagation time of the first energy beam reflected off of the remote surface and a second propagation time of the second energy beam reflected off of the remote surface; andestimating, by a processor of the mobile device, the distance to the remote surface based on the first propagation time and the second propagation time. 2. The method of claim 1, wherein the energy signal comprises light waves. 3. The method of claim 1, wherein the first wavelength is different from the second wavelength. 4. The method of claim 1, wherein the reflector array comprises a plurality of micro-mirrors, and wherein an angle of each micro-mirror of the plurality of micro-mirrors is individually configurable. 5. The method of claim 1, wherein the first energy beam is reflected by a first micro-mirror of the plurality of micro-mirrors set at a first reflecting angle and the second energy beam is reflected by a second micro-mirror of the plurality of micro-mirrors set at a second reflecting angle different from the first reflecting angle. 6. The method of claim 1, wherein the estimating comprises: estimating, by the processor of the mobile device, a first distance to the remote surface based on the first propagation time and a second distance to the remote surface based on the second propagation time; andsetting, by the processor of the mobile device, a shorter of the first distance and the second distance as the distance to the remote surface. 7. The method of claim 1, wherein at least the energy emitter, the energy splitter, and the reflector array are mounted on a semiconductor device of the mobile device. 8. An apparatus for estimating a distance from a mobile device to a remote surface, comprising: an energy emitter of the mobile device configured to direct an energy signal onto an energy splitter of the mobile device, wherein the energy splitter of the mobile device is configured to partition the energy signal into a first energy beam having a first wavelength and a second energy beam having a second wavelength;a reflector array of the mobile device configured to reflect the first energy beam at a first angle from the reflector array and the second energy beam at a second angle from the reflector array different from the first angle, and to project the first energy beam and the second energy beam onto the remote surface;a receiver of the mobile device configured to measure a first propagation time of the first energy beam reflected off of the remote surface and a second propagation time of the second energy beam reflected off of the remote surface; anda processor of the mobile device configured to estimate the distance to the remote surface based on the first propagation time and the second propagation time. 9. The apparatus of claim 8, wherein the energy signal comprises light waves. 10. The apparatus of claim 8, wherein the first wavelength is different from the second wavelength. 11. The apparatus of claim 8, wherein the reflector array comprises a plurality of micro-mirrors, and wherein an angle of each micro-mirror of the plurality of micro-mirrors is individually configurable. 12. The apparatus of claim 11, wherein the first energy beam is reflected by a first micro-mirror of the plurality of micro-mirrors set at a first reflecting angle and the second energy beam is reflected by a second micro-mirror of the plurality of micro-mirrors set at a second reflecting angle different from the first reflecting angle. 13. The apparatus of claim 8, wherein the processor being configured to estimate comprises the processor being configured to: estimate a first distance to the remote surface based on the first propagation time and a second distance to the remote surface based on the second propagation time; andset a shorter of the first distance and the second distance as the distance to the remote surface. 14. The apparatus of claim 8, wherein at least the energy emitter, the energy splitter, and the reflector array are mounted on a semiconductor device of the mobile device. 15. An apparatus for estimating a distance from a mobile device to a remote surface, comprising: means for directing an energy signal onto a means for partitioning;means for partitioning the energy signal into a first energy beam having a first wavelength and a second energy beam having a second wavelength;means for reflecting the first energy beam at a first angle from the reflector array and the second energy beam at a second angle from the reflector array different from the first angle;means for projecting the first energy beam and the second energy beam onto the remote surface;means for measuring a first propagation time of the first energy beam reflected off of the remote surface and a second propagation time of the second energy beam reflected off of the remote surface; andmeans for estimating the distance to the remote surface based on the first propagation time and the second propagation time. 16. A non-transitory computer-readable medium for estimating a distance from a mobile device to a remote surface, comprising: at least one instruction to direct, by an energy emitter, an energy signal onto an energy splitter of the mobile device;at least one instruction to partition, by the energy splitter of the mobile device, the energy signal into a first energy beam having a first wavelength and a second energy beam having a second wavelength;at least one instruction to reflect, by a reflector array of the mobile device, the first energy beam at a first angle from the reflector array and the second energy beam at a second angle from the reflector array different from the first angle;at least one instruction to project, by the reflector array of the mobile device, the first energy beam and the second energy beam onto the remote surface;at least one instruction to measure, by a receiver of the mobile device, a first propagation time of the first energy beam reflected off of the remote surface and a second propagation time of the second energy beam reflected off of the remote surface; andat least one instruction to estimate, by a processor of the mobile device, the distance to the remote surface based on the first propagation time and the second propagation time.
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이 특허에 인용된 특허 (14)
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