Luneburg lens antenna device

What is claimed is: 1. A Luneburg lens antenna device comprising: a Luneburg lens that is formed in a cylindrical shape and has a distribution of different dielectric constants, wherein the dielectric constants are a function of a radial distance from a central axis of the cylindrical shape; and a plurality of array antennas each comprising a plurality of antenna elements disposed on an outer peripheral surface of the Luneburg lens and at different positions along both a peripheral direction and an axial direction of the Luneburg lens, wherein: the plurality of array antennas are provided on the outer peripheral surface over a range of 180 degrees or less about the central axis, the plurality of array antennas are provided at different positions of the Luneburg lens in the axial direction, and at least one of the plurality of array antennas covers a different range of the outer peripheral surface in the peripheral direction. 2. The Luneburg lens antenna device according to claim 1 , wherein at least one of the plurality of array antennas comprises a different number of antenna elements in the axial direction than another of the plurality of array antennas. 3. A Luneburg lens antenna device comprising: a Luneburg lens that is formed in a cylindrical shape and has a distribution of different dielectric constants, wherein the dielectric constants are a function of a radial distance from a central axis of the cylindrical shape; and an array antenna comprising a plurality of antenna elements disposed on an outer peripheral surface of the Luneburg lens and at different positions along both a peripheral direction and an axial direction of the Luneburg lens, wherein: the array antenna is provided on the outer peripheral surface over a range of 180 degrees or less about the central axis, the plurality of antenna elements are disposed directly on the outer peripheral surface, at least one insulating layer is provided on the plurality of antenna elements, and at least one ground layer is provided on the at least one insulating layer. 4. The Luneburg lens antenna device according to claim 3 , wherein a different ground layer is provided for each of the plurality of antenna elements disposed at a different position in the peripheral direction. 5. The Luneburg lens antenna device according to claim 1 , wherein each antenna element in one of the plurality of antenna arrays that is disposed at a different position in the axial direction is operated mutually dependently. 6. The Luneburg lens antenna device according to claim 3 , wherein each antenna element in the array antenna that is disposed at a different position in the axial direction is operated mutually dependently.