Antenna apparatus less susceptible to surrounding conductors and dielectrics

The invention claimed is: 1. An antenna apparatus comprising: a dielectric substrate; a front array including a feed element and a plurality of parasitic elements, the feed element being formed on the dielectric substrate and having one radiation direction, and the plurality of parasitic elements being formed on the dielectric substrate in an area located in the radiation direction with respect to the feed element; and at least one side array including a plurality of parasitic elements formed on the dielectric substrate in at least an area located in a direction other than the radiation direction with respect to the feed element, wherein the plurality of parasitic elements of the front array configure a plurality of front sub arrays, each of the front sub arrays including a plurality of parasitic elements which are aligned along the radiation direction, wherein the plurality of front sub arrays are provided in parallel to each other along the radiation direction such that the respective parasitic elements of two adjacent front sub arrays are close to each other, and wherein the plurality of parasitic elements of each of the side array are aligned substantially along the radiation direction. 2. The antenna apparatus according to claim 1 , wherein the respective parasitic elements of each of the side array have their longitudinal direction along a longitudinal direction of the side array, and wherein in each of the side array, a sum of lengths in the longitudinal direction of two parasitic elements adjacent in the longitudinal direction of the side array, and a length of a gap between the two parasitic elements is less than one half of an operating wavelength of the feed element. 3. The antenna apparatus according to claim 1 , wherein the plurality of parasitic elements of each of the side array configure a plurality of side sub arrays, each of the side sub arrays including a plurality of parasitic elements which are aligned substantially along the radiation direction, wherein the plurality of side sub arrays are provided in parallel to each other substantially along the radiation direction. 4. The antenna apparatus according to claim 3 , wherein the plurality of side sub arrays of each of the side array are provided such that in two adjacent side sub arrays, gaps between the parasitic elements of one side sub array, and gaps between the parasitic elements of the other side sub array are located at alternate positions. 5. The antenna apparatus according to claim 1 , wherein the antenna apparatus comprises a first side array provided in one side with respect to a reference axis extending from the feed element toward the radiation direction, and a second side array provided in the other side with respect to the reference axis. 6. The antenna apparatus according to claim 5 , wherein a distance from the feed element and the front array to the first side array is substantially equal to a distance from the feed element and the front array to the second side array. 7. The antenna apparatus according to claim 1 , wherein the antenna apparatus comprises one side array provided in one side with respect to a reference axis extending from the feed element toward the radiation direction, and wherein a distance from the feed element and the front array to the side array is substantially equal to a the distance from the feed element and the front array to an edge of the dielectric substrate, in a side to which the side array is not provided, with respect to the reference axis. 8. The antenna apparatus according to claim 1 , wherein the feed element is a dipole antenna having a longitudinal direction along a direction perpendicular to the radiation direction, and wherein the plurality of parasitic elements of the front array have their longitudinal direction along the direction perpendicular to the radiation direction. 9. The antenna apparatus according to claim 8 , wherein the plurality of front sub arrays of the front array are provided such that in two adjacent front sub arrays, the respective parasitic elements of one front sub array, and the respective parasitic elements of the other front sub array are located at alternate positions. 10. The antenna apparatus according to claim 1 comprising: a first and a second feed elements formed on the dielectric substrate so as to align along a direction substantially perpendicular to the radiation direction; a first front array including a plurality of parasitic elements formed on the dielectric substrate in an area located in the radiation direction with respect to the first feed element; and a second front array including a plurality of parasitic elements formed on the dielectric substrate in an area located in the radiation direction with respect to the second feed element; and at least one side array including a plurality of parasitic elements formed on the dielectric substrate in at least an area located in a direction other than the radiation direction with respect to the first and second feed elements, and wherein one of the at least one side array is provided between a set of the first feed element and the first front array, and a set of the second feed element and the second front array. 11. A wireless communication apparatus comprising: an antenna apparatus; and a wireless communication circuit connected to the antenna apparatus, wherein the antenna apparatus comprising: a dielectric substrate; a front array including a feed element and a plurality of parasitic elements, the feed element being formed on the dielectric substrate and having one radiation direction, and the plurality of parasitic elements being formed on the dielectric substrate in an area located in the radiation direction with respect to the feed element; and at least one side array including a plurality of parasitic elements formed on the dielectric substrate in at least an area located in a direction other than the radiation direction with respect to the feed element, wherein the plurality of parasitic elements of the front array configure a plurality of front sub arrays, each of the front sub arrays including a plurality of parasitic elements which are aligned along the radiation direction, wherein the plurality of front sub arrays are provided in parallel to each other along the radiation direction such that the respective parasitic elements of two adjacent front sub arrays are close to each other, and wherein the plurality of parasitic elements of each of the side array are aligned substantially along the radiation direction. 12. An electronic apparatus comprising: a wireless communication apparatus; and a signal processing apparatus configured to process signals transmitted or received by the wireless communication apparatus, wherein the wireless communication apparatus comprises: an antenna apparatus; and a wireless communication circuit connected to the antenna apparatus wherein the antenna apparatus comprising: a dielectric substrate; a front array including a feed element and a plurality of parasitic elements, the feed element being formed on the dielectric substrate and having one radiation direction, and the plurality of parasitic elements being formed on the dielectric substrate in an area located in the radiation direction with respect to the feed element; and at least one side array including a plurality of parasitic elements formed on the dielectric substrate in at least an area located in a direction other than the radiation direction with respect to the feed element, wherein the plurality of parasitic elements of the front array configure a plurality of front sub arrays, each of the front sub arrays includin