Compact patch antenna array

We claim: 1. An antenna module comprising: a ground layer having a first ground surface and a second ground surface opposite of the first ground surface; a first dielectric layer having a first dielectric surface and a second dielectric surface, the first dielectric surface being disposed over the first ground surface, the second dielectric surface having a curve structure; a second dielectric layer having a third dielectric surface and a fourth dielectric surface, the third dielectric surface being disposed over the second ground surface such that the ground layer is placed between the first and second dielectric layers; a plurality of antenna elements being in an array arrangement and disposed on the curve structure of the second dielectric surface; a feeding network being disposed over the fourth dielectric surface or placed within the second dielectric layer, wherein the feeding network is coupled to the antenna elements and wherein the feeding network is configured to function as a beam forming network and output concurrently a plurality of beams shaped according to the array arrangement of the antenna elements; and a plurality of pins connecting the feeding network to the antenna elements through at least the ground layer and the first dielectric layer. 2. The antenna module of claim 1 , wherein mismatches of feeding traces create phase differences which perform as beam weight vectors of the beam forming network. 3. The antenna module of claim 1 , wherein the antenna elements face different directions. 4. The antenna module of claim 1 , wherein the feeding network is coupled to each of the antenna elements through a via. 5. The antenna module of claim 1 , wherein the feeding network is configured to output concurrently the shaped beams that have different frequency bands. 6. The antenna module of claim 1 , wherein the feeding network is configured to output concurrently the shaped beams that have different polarizations. 7. The antenna module of claim 1 , wherein the antenna elements form a conformal array. 8. An antenna module comprising: a ground layer having a first ground surface and a second ground surface opposite of the first ground surface; a first dielectric layer having a first dielectric surface and a second dielectric surface, the first dielectric surface being disposed over the first ground surface; a second dielectric layer having a third dielectric surface and a fourth dielectric surface, the third dielectric surface being disposed over the second ground surface such that the ground layer is placed between the first and second dielectric layers; a plurality of antenna elements being in an array arrangement and disposed on the second dielectric surface; a feeding network being disposed over the fourth dielectric surface or placed within the second dielectric layer, wherein the feeding network is coupled to the antenna elements and wherein the feeding network is configured to function as a beam forming network and output concurrently a plurality of beams shaped according to the array arrangement of the antenna elements; and a plurality of pins connecting the feeding network to the antenna elements through at least the ground layer and the first dielectric layer. 9. The antenna module of claim 8 , wherein the second dielectric surface is non-planar. 10. The antenna module of claim 8 , wherein the feeding network comprises a microstrip. 11. The antenna module of claim 8 , wherein the feeding network comprises a strip line. 12. The antenna module of claim 8 , wherein the feeding network is configured to output concurrently the shaped beams that point to different directions. 13. The antenna module of claim 8 , wherein the feeding network is configured to output concurrently the shaped beams that have different frequency bands. 14. The antenna module of claim 8 , wherein the feeding network is configured to output concurrently the shaped beams that have different polarizations. 15. An antenna module comprising: a ground layer having a first ground surface and a second ground surface opposite of the first ground surface; a first dielectric layer having a first dielectric surface and a second dielectric surface, the first dielectric surface being disposed over the first ground surface, the second dielectric surface having a non-planar structure; a second dielectric layer having a third dielectric surface and a fourth dielectric surface, the third dielectric surface being disposed over the second ground surface such that the ground layer is placed between the first and second dielectric layers; a plurality of antenna elements being in an array arrangement and disposed on the non-planar structure of the second dielectric surface; a feeding network being disposed over the fourth dielectric surface or placed within the second dielectric layer, wherein the feeding network is coupled to the antenna elements and wherein the feeding network is configured to function as a beam forming network and output concurrently a plurality of beams shaped according to the array arrangement of the antenna elements; and a plurality of pins connecting the feeding network to the antenna elements through at least the ground layer and the first dielectric layer. 16. The antenna module of claim 15 , wherein the second dielectric surface comprises a plurality of connected planar surfaces that are facing different directions, the antenna elements being disposed on the connected planar surfaces. 17. The antenna module of claim 15 , wherein the second dielectric surface is shaped like a pyramid and comprises four planar surfaces that are facing different directions, the antenna elements being disposed on the four planar surfaces. 18. The antenna module of claim 15 , wherein the feeding network is configured to output concurrently the shaped beams that are pointing to different directions. 19. The antenna module of claim 15 , wherein the feeding network comprises a microstrip or a strip line. 20. The antenna module of claim 15 , wherein mismatches of feeding traces create phase differences which perform as beam weight vectors of the beam forming network.