Optical wireless communication system for a vehicle

1 . Optical wireless communication system for a vehicle comprising at least one photonic device and control electronics configured to control the at least one photonic device, wherein the at least one photonic device comprises a plurality of photonic components and in that the control electronics are configured to control individually or in groups the photonic components of the plurality of photonic components, each photonic component or each group of photonic components being configured, so as to emit and/or receive at least one optical wireless communication signal in a propagation direction that is discriminable relative to a propagation direction of optical wireless communication signals emitted and/or received, respectively, by at least one other photonic component or by at least one other group of photonic components of the plurality of photonic components. 2 . System according to claim 1 , wherein the photonic components of a given plurality are arranged in a two-dimensional matrix array. 3 . System according to claim 1 , wherein the photonic components of a given plurality form a monolithic array. 4 . System according to claim 1 , wherein the photonic components of the at least one plurality are configured conjointly with a forming optic of the photonic device. 5 . System according to claim 1 , wherein the plurality of photonic components comprises at least one first photonic component or one first group of photonic components configured to emit an optical wireless communication signal in a first emission cone and at least one second photonic component or one second group of photonic components configured to emit an optical wireless communication signal in a second emission cone, the first and second emission cones being distinct from each other. 6 . System according to claim 1 , wherein the plurality of photonic components comprises at least one first photonic component or one first group of photonic components configured to receive an optical wireless communication signal in a first reception cone and at least one second photonic component or one second group of photonic components configured to receive an optical wireless communication signal in a second reception cone, the first and second reception cones being distinct from each other. 7 . System according to claim 1 , wherein the plurality of photonic components comprises at least one photonic component or one group of photonic components configured to emit successive optical wireless communication signals and the control electronics furthermore configured to control at least one among an intensity and a duration of each signal, and a frequency of mutual succession of the optical communication signals. 8 . System according to claim 7 , wherein the frequency of mutual succession of the optical communication signals is parameterized so that it allows the transmission of a significant number of data in a small time interval. 9 . System according to claim 1 , wherein the plurality of photonic components comprises at least one among a photonic component or a group of photonic components configured to emit an optical wireless communication signal the wavelength of which belongs to the spectrum visible to the human eye and at least one second photonic component or one second group of photonic components configured to emit an optical wireless communication signal outside of the spectrum visible to humans, for example in the infrared or the ultraviolet. 10 . System according to claim 1 , wherein the plurality of photonic components comprises at least one among a photonic component or a group of photonic components configured to emit an optical wireless communication signal the wavelength of which belongs to the spectrum visible to the human eye and at least one second photonic component or one second group of photonic components configured to emit an optical wireless communication signal outside of the spectrum visible to humans, for example in the infrared or the ultraviolet. 11 . System according to claim 1 , wherein the plurality of photonic components comprises at least one photonic component or one group of photonic components configured to emit an optical wireless communication signal the wavelength of which belongs to the spectrum visible to humans, the optical wireless communication signal being parameterized so as to participate, concomitantly or successively to its communication function, in at least one regulated photometric function chosen from a high-beam function, a low-beam function, a daytime-running-light function, a position-light function and a fog-light function. 12 . System according to claim 1 , wherein the plurality of photonic components comprises at least one photonic component or one group of photonic components configured to successively emit and receive the at least one optical wireless communication signal. 13 . System according to claim 1 , furthermore comprising a camera that is functionally connected to the control electronics and configured to locate, or even identify, a target with which to communicate. 14 . System according to claim 1 , furthermore comprising additional communication means functionally connected to the control electronics and configured to implement at least one of the communication technologies among Wifi™ technology, Bluetooth® technology and omnidirectional optical wireless communication technology. 15 . Luminous device at least partially performs at least one regulated photometric function and comprising at least one communication system according to claim 1 . 16 . Motor vehicle comprising a luminous device able to at least partially perform at least one regulated photometric function and comprises at least one communication system according to claim 1 . 17 . System according to claim 2 , wherein the photonic components of a given plurality form a monolithic array. 18 . System according to claim 2 , wherein the photonic components of the at least one plurality are configured conjointly with a forming optic of the photonic device. 19 . System according to claim 1 , wherein the plurality of photonic components comprising at least one first photonic component or one first group of photonic components configured to emit an optical wireless communication signal in a first emission cone and at least one second photonic component or one second group of photonic components configured to emit an optical wireless communication signal in a second emission cone, the first and second emission cones being distinct from each other. 20 . System according to claim 1 , wherein the plurality of photonic components comprising at least one first photonic component or one first group of photonic components configured to receive an optical wireless communication signal in a first reception cone and at least one second photonic component or one second group of photonic components configured to receive an optical wireless communication signal in a second reception cone, the first and second reception cones being distinct from each other.