Method and apparatus for a target determining apparatus having increased range
First Claim
1. A target determining apparatus, comprising:
- a semiconductor light source at a first location, the light source having a power rating such that the emitted power of the apparatus is no more than 1 milliwatt;
means for modulating the light source in a predetermined manner;
at least one retroreflective target adapted to be at a second location to reflect light from the light source back toward said first location;
aiming means for directing a light beam from the light source to the target;
a photoreceptor located at the first location so as to be responsive to reflected light from the target;
demodulating means for demodulating photoreceptor signals in accordance with said predetermined manner so as to pass only signals having characteristics corresponding to the means for modulating; and
amplifying means for amplifying the signal from the photoreceptor an amount sufficient to create a peak signal of at least 0.6 volts from light reflected from a six-inch wide target about 65 feet from the first location.
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Abstract
This invention concerns a target determining apparatus that has particular application to a navigation system for an automated guided vehicle. The target determining apparatus has a laser diode light source which is scanned toward retroreflective targets. A photoreceptor in the apparatus detects reflected light returning from a target. The light source is modulated at either a constant or binary-coded frequency. Signals from the photoreceptor are demodulated in accordance with the chosen modulation scheme, resulting in a markedly improved signal-to-noise ratio. This permits either increased amplification of the signal or a reduced threshold for determining a valid target signal. In either case, the range of the apparatus is increased, without increasing the power of the light source, because weaker signals from more distant targets can be reliably distinguished from background noise. The power of the light source may be reduced if desired to limit the range of the apparatus in instances where more than one target might otherwise be within range.
19 Citations
48 Claims
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1. A target determining apparatus, comprising:
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a semiconductor light source at a first location, the light source having a power rating such that the emitted power of the apparatus is no more than 1 milliwatt; means for modulating the light source in a predetermined manner; at least one retroreflective target adapted to be at a second location to reflect light from the light source back toward said first location; aiming means for directing a light beam from the light source to the target; a photoreceptor located at the first location so as to be responsive to reflected light from the target; demodulating means for demodulating photoreceptor signals in accordance with said predetermined manner so as to pass only signals having characteristics corresponding to the means for modulating; and amplifying means for amplifying the signal from the photoreceptor an amount sufficient to create a peak signal of at least 0.6 volts from light reflected from a six-inch wide target about 65 feet from the first location. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A method for determining a target, comprising the steps of:
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placing a semiconductor light source at a first location, the light source having a power rating such that the emitted power of the source is no more than 1 milliwatt; modulating the light source in a predetermined manner; placing at least one retroreflective target at a second location to reflect light from the light source back toward said first location; directing a light beam from the light source to the target; sensing light reflected from the target with a photoreceptor located at the first location; demodulating signals from the photoreceptor in accordance with said predetermined manner so as to pass only signals having characteristics corresponding to the means for modulating; and amplifying the signal from the photoreceptor an amount sufficient to create a peak signal of at least 0.6 volts from light reflected from a six-inch wide target about 65 feet from the first location. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16)
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17. In a target determining apparatus of the type having a light source at a first location, at least one retroreflective target adapted to be at a second location to reflect light from the light source back toward said first location, aiming means for directing a light beam from the light source to the target, a photoreceptor located at the first location so as to be responsive to light reflected from the target, means for amplifying the output of the photoreceptor and means for establishing criteria for distinguishing between photoreceptor signals generated by reflected light from a target and photoreceptor noise, the improvement comprising a method of increasing the range of the apparatus without increasing the power of the light source, comprising the steps of:
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using a laser diode as the light source; modulating the laser diode such that it emits a known pattern of pulses of light; demodulating the output of the photoreceptor according to the known pattern of pulses; and increasing the gain of the means for amplifying such that weaker signals from farther targets will meet said criteria for distinguishing but the amplified noise will not. - View Dependent Claims (18, 19, 20, 21, 22)
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23. In a target determining apparatus of the type having a light source at a first location, at least one retroreflective target adapted to be at a second location to reflect light from the light source back toward said first location, aiming means for directing a light beam from the light source to the target, a photoreceptor located at the first location so as to be responsive to light reflected from the target, means for amplifying the output of the photoreceptor and means for establishing criteria for distinguishing between photoreceptor signals generated by reflected light from a target and photoreceptor noise, the improvement comprising a method of increasing the range of the apparatus without increasing the power of the light source, comprising the steps of:
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using a laser diode as the light source; modulating the laser diode such that it emits a known pattern of pulses of light; demodulating the output of the photoreceptor according to the known pattern of pulses; and altering the criteria for distinguishing between photoreceptor signals generated by reflected light from a target and photoreceptor noise such that weaker signals from farther targets will meet said criteria for distinguishing but the noise will not. - View Dependent Claims (24, 25, 26, 27, 28)
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29. An automated guided vehicle of the type having a navigation system for sensing a desired path and steering means responsive to the navigation system for guiding the vehicle along said path, an improved navigation system, comprising:
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a semiconductor light source at a first location on the vehicle; a plurality of retroreflective targets placed along the desired path of the vehicle and adapted to reflect light from the light source back toward said first location; aiming means for directing a light beam from the light source to one of the targets; a photoreceptor located at the first location so as to be responsive to reflected light from the target; sensing means responsive to the photoreceptor for sensing the vehicle'"'"'s position relative to the desired path and controlling the steering means of the vehicle in response the vehicle'"'"'s relative position to guide the vehicle along the desired path; means for varying the power of the light source; and means for controlling said means for varying so as to selectively shorten the range of the navigation system, thereby inducing the aiming means to direct light to a closer target as opposed to a farther target during instances when more than one target might otherwise be within range. - View Dependent Claims (30, 31, 32, 33, 34)
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35. In an automated guided vehicle of the type having a navigation system for sensing a desired path and steering means responsive to the navigation system for guiding the vehicle along said path, an improved method for guiding the vehicle comprising the steps of:
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placing a semiconductor light source at a first location on the vehicle; placing a plurality of retroreflective targets along the desired path of the vehicle, the targets being adapted to reflect light from the light source back toward said first location; aiming a light beam from the light source to one of the targets; sensing light reflected from the target with a photoreceptor located at the first location; sensing, in response to the photoreceptor, the vehicle'"'"'s position relative to the desired path; controlling the steering means of the vehicle in response the vehicle'"'"'s relative position to guide the vehicle along the desired path; and controlling the power of the light source so as to selectively shorten the range of the navigation system, thereby inducing the aiming of the light beam to a closer target as opposed to a farther target during instances when more than one target might otherwise be within range. - View Dependent Claims (36, 37, 38, 39, 40)
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41. In a target determining apparatus of the type having a light source at a first location, at least one retroreflective target at a second location in spaced relation to the first location to reflect light from the light source back toward the first location, a photoreceptor at the first location responsive to light reflected from the target, means for amplifying the output of the photoreceptor, and means for establishing a threshold level between photoreceptor return signals generated by reflected light from a target and photoreceptor noises generated by stray light, the sensitivity of the photoreceptor, the amplification of the means for amplifying and the threshold level being chosen to enable the apparatus to sense reliably a target at a first maximum range from the first location, the improvement comprising a method of increasing the maximum range of the apparatus to a second, maximum range without increasing the power of the light source or the sensitivity of the photoreceptor, comprising the steps of:
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using a laser diode as the light source; modulating the laser diode such that it emits a known pattern of pulses of light; demodulating the output of the photoreceptor according to the known pattern of pulses; and altering the relation between the threshold level and the return signal such that signals from targets at ranges beyond said first maximum range exceed the threshold, without causing the photoreceptor noise to exceed the threshold level. - View Dependent Claims (42, 43, 44, 45, 46, 47, 48)
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Specification