NON-LINE OF SIGHT OPTICAL COMMUNICATIONS
First Claim
1. A receiver to receive information encoded in a pulsed collective optical beam being a combination of multiple elementary optical beams coming from different directions, the collective optical beam being formed as a result of an initial optical beam scattering on the atmospheric inhomogeneities, the initial optical beam being a monochromatic beam generated by a laser source, comprising:
- at least a first and a second photodetectors, the first and the second photodetectors receiving a first and a second elementary optical beams respectively, an axis of the first and an axis of the second detectors being positioned at an angle to each other to receive the elementary optical beams coming from different directions;
the first elementary beam being received from a first area in a free space and the second signal being received from a second area in the free space, the first and the second areas being at a distance of at least tenth of meters from the first and the second detectors;
wherein a first detector aperture having a size to receive the first elementary beam coming from the first free space area with a length along the direction of the initial optical beam being larger than a length of a pulse of the first elementary optical beam;
the photodetectors outputting a first and a second electrical signals;
at least a first time delay unit introducing a first time delay in the second electrical signal to synchronize the first and the second electrical signals;
the first time delay being equal to time difference in light propagation from the laser source to the first and the second photodetectors, determined by the angle between the first and the second elementary optical beams and by a time of the pulse propagation from one edge of the first free space area to another edge of it;
the first time delay unit outputting a second delayed electrical signal; and
a digital signal processing unit combining at least the first electrical signal and the second delayed electrical signal and decoding the information being encoded in the initial optical beam.
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Abstract
A non-line of sight (NLOS) communications system and method are provided. An ensemble of photodetectors is used to collect the light, scattered in the sky being illuminated by initial pulsed laser beam carrying information. Each detector collects scattered light from one area in free space along the initial light propagation line. The same bit of information is detected multiple times on multiple detectors during the pulse transmission along its propagation path. Signals received by multiple detectors are synchronized and processed in a digital signal processing unit. Improved system sensitivity and reliability is achieved by multiple registration of the same bit of information. Special selection of the areas in free space ensures detection of a single bit of information during the time equal to a bit period.
38 Citations
20 Claims
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1. A receiver to receive information encoded in a pulsed collective optical beam being a combination of multiple elementary optical beams coming from different directions, the collective optical beam being formed as a result of an initial optical beam scattering on the atmospheric inhomogeneities, the initial optical beam being a monochromatic beam generated by a laser source, comprising:
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at least a first and a second photodetectors, the first and the second photodetectors receiving a first and a second elementary optical beams respectively, an axis of the first and an axis of the second detectors being positioned at an angle to each other to receive the elementary optical beams coming from different directions;
the first elementary beam being received from a first area in a free space and the second signal being received from a second area in the free space, the first and the second areas being at a distance of at least tenth of meters from the first and the second detectors;
wherein a first detector aperture having a size to receive the first elementary beam coming from the first free space area with a length along the direction of the initial optical beam being larger than a length of a pulse of the first elementary optical beam;the photodetectors outputting a first and a second electrical signals; at least a first time delay unit introducing a first time delay in the second electrical signal to synchronize the first and the second electrical signals;
the first time delay being equal to time difference in light propagation from the laser source to the first and the second photodetectors, determined by the angle between the first and the second elementary optical beams and by a time of the pulse propagation from one edge of the first free space area to another edge of it;
the first time delay unit outputting a second delayed electrical signal; anda digital signal processing unit combining at least the first electrical signal and the second delayed electrical signal and decoding the information being encoded in the initial optical beam. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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14. A non-line of sight optical communications system, comprising:
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a laser light source, the laser light source outputting an initial optical beam transmitting information, the initial optical beam having at least a first part of the initial optical beam; the first part of the initial optical beam being directed along an azimuth A1 towards the sky at an elevation angle B1 above the horizon, the first part of the initial optical beam being scattered on inhomogeneities in a free space along its transmission path, portions of the first initial optical beam forming scattered light, at least a first and a second photodetectors each receiving a first and a second scattered light from a first and a second free space areas, the first and the second free space areas, both the first and the second free space areas located along the initial optical beam propagation direction and non-overlapping in free space, a first detector aperture having a size to receive the first elementary beam coming from the first free space area with a length along the direction of the initial optical beam being larger than a length of a pulse of the first elementary optical beam; the first and the second photodetectors outputting a first and a second electrical signals; a first time delay unit introducing a first time delay in the second electrical signal to synchronize the first and the second signals, the first time delay determined by a time of the pulse propagation from one edge of the first free space area to another edge along the axis; the first delay unit outputting a second delayed electrical signal; a first digital signal processing unit combining the first electrical signal and the second delayed electrical signal, the first digital signal processing unit decoding a transmitted information being encoded in the first part of the optical beam. - View Dependent Claims (15, 16, 17, 18)
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19. A method of non-line of sight optical communications, comprising:
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emitting an initial light beam in free space; modulating an amplitude of the initial light beam with an information to be transmitted; scattering the light beam on the atmospheric inhomogeneities along its transmission path and forming a scattered light; receiving at least a first portion of the scattered light on a first photodetector and a second portion of the scattered light on a second photodetector, the first portion being collected from a first free space area and the second portion being collected from a second free space area, the first and the second free space areas non-overlapping in space, wherein the first and the second areas being at a distance of at least tenth of meters from the first and the second detectors;
wherein the lengths of the first and the second free space areas are determined by a first and a second detector apertures;the first photodetector and the second photodetector outputting a first and a second electrical signals; delaying the second electrical signal relative to the first electrical signal by a time delay forming a delayed second electrical signal;
the time delay being determined by a time of a pulse propagation from one edge of the first free space area to another edge of the first free space area; andcombining the first electrical signal and the delayed second electrical signal, decoding and displaying transmitted information. - View Dependent Claims (20)
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Specification