Low-profile dual-band filtering patch antenna

What is claimed is: 1. A low-profile dual-band filtering patch antenna comprising a substrate, a ground on a bottom layer of the substrate, and a first U-shaped patch operating at upper frequency bands, a second U-shaped patch operating at lower frequency bands and a multi-stub microstrip line, the first U-shaped patch having a smaller size is embedded in the second U-shaped patch having a larger size; wherein, when operating at the upper frequency bands, the multi-stub microstrip line forms a feeding structure, and when operating at the lower frequency bands, the multi-stub microstrip line and the first U-shaped patch form the feeding structure; wherein the multi-stub microstrip line is arranged on a top layer of the substrate and comprises a main transmission line inserted into an opening of the first U-shaped patch, a first pair of open-ended stubs and a second pair of open-ended stubs loaded at both sides close to openings of the first U-shaped patch and the second U-shaped patch. 2. The low-profile dual-band filtering patch antenna according to claim 1 , wherein the first U-shaped patch and the second U-shaped patch are arranged symmetrically relative to a central axis. 3. The low-profile dual-band filtering patch antenna according to claim 1 , wherein the main transmission line is loaded along the central axis, the first pair of open-ended stubs and the second pair of open-ended stubs are loaded symmetrically on both sides of the main transmission line. 4. The low-profile dual-band filtering patch antenna according to claim 3 , wherein the first pair of open-ended stubs having a shorter length and the second pair of open-ended stubs having a longer length are parallel to each other, the main transmission line crosses the first pair of open-ended stubs and reaches the second pair of open-ended stubs. 5. The low-profile dual-band filtering patch antenna according to claim 3 , wherein a length of the first pair of open-ended stubs is shorter than a length of the first U-shaped patch, and a length of the second pair of open-ended stubs is longer than the length of the first U-shaped patch but shorter than a length of the second U-shaped patch. 6. A low-profile dual-band filtering patch antenna comprising a substrate, a ground on a bottom layer of the substrate, and a first U-shaped patch operating at upper frequency bands, a second U-shaped patch operating at lower frequency bands and a multi-stub microstrip line, the first U-shaped patch having a smaller size is embedded in the second U-shaped patch having a larger size; wherein, when operating at the upper frequency bands, the multi-stub microstrip line forms a feeding structure, and when operating at the lower frequency bands, the multi-stub microstrip line and the first U-shaped patch form the feeding structure; wherein the second U-shaped patch and the multi-stub microstrip line are arranged symmetrically relative to a central axis; wherein the multi-stub microstrip line comprises a main transmission line inserted into an opening of the first U-shaped patch, a first pair of open-ended stubs and a second pair of open-ended stubs loaded at both sides close to openings of the first U-shaped patch and the second U-shaped patch; wherein the main transmission line is loaded along the central axis, the first pair of open-ended stubs and the second pair of open-ended stubs are loaded symmetrically on both sides of the main transmission line, the first pair of open-ended stubs having a shorter length and the second pair of open-ended stubs having a longer length are parallel to each other, the main transmission line crosses the first pair of open-ended stubs and reaches the second pair of open-ended stubs. 7. The low-profile dual-band filtering patch antenna according to claim 6 , wherein a length of the first pair of open-ended stubs is shorter than a length of the first U-shaped patch, and a length of the second pair of open-ended stubs is longer than the length of the first U-shaped patch but shorter than a length of the second U-shaped patch, and an input port connecting to the main transmission line. 8. A LET MIMO system, comprising a substrate, a ground on a bottom layer of the substrate, and at least one low-profile dual-band filtering patch antenna unit arranged on the substrate, wherein the low-profile dual-band filtering patch antenna unit comprises a first U-shaped patch operating at upper frequency bands, a second U-shaped patch operating at lower frequency bands and a multi-stub microstrip line on a top layer of the substrate, the first U-shaped patch having a smaller size is embedded in the second U-shaped patch having a larger size; wherein, when operating at the upper frequency bands, the multi-stub microstrip line forms a feeding structure, and when operating at the lower frequency bands, the multi-stub microstrip line and the first U-shaped patch form the feeding structure; the multi-stub microstrip line comprises a main transmission line inserted into an opening of the first U-shaped patch, a first pair of open-ended stubs and a second pair of open-ended stubs loaded at both sides close to openings of the first U-shaped patch and the second U-shaped patch. 9. The LET MIMO system according to claim 8 , wherein comprising at least two low-profile dual-band filtering patch antenna units arranged at two sides of a substrate central axis of one substrate. 10. The LET MIMO system according to claim 8 , wherein comprising at least four low-profile dual-band filtering patch antenna units arranged at four angles of one rectangular substrate. 11. The LET MIMO system according to claim 9 , wherein each two low-profile dual-band filtering patch antenna units are arranged parallelly and close to each other, and isolated by a decoupling network. 12. The LET MIMO system according to claim 11 , wherein the decoupling network comprising at least three interdigital short-ended lines with a length of about a quarter-wavelength at the lower frequency bands. 13. The LET MIMO system according to claim 8 , wherein the first U-shaped patch and the second U-shaped patch are arranged symmetrically relative to a central axis. 14. The LET MIMO system according to claim 8 , wherein the main transmission line is loaded along the central axis, the first pair of open-ended stubs and the second pair of open-ended stubs are loaded symmetrically on both sides of the main transmission line. 15. The LET MIMO system according to claim 14 , wherein the first pair of open-ended stubs having a shorter length and the second pair of open-ended stubs having a longer length are parallel to each other, the main transmission line crosses the first pair of open-ended stubs and reaches the second pair of open-ended stubs. 16. The LET MIMO system according to claim 14 , wherein a length of the first pair of open-ended stubs is shorter than a length of the first U-shaped patch, and a length of the second pair of open-ended stubs is longer than the length of the first U-shaped patch but shorter than a length of the second U-shaped patch. 17. The LET MIMO system according to claim 11 , wherein the first U-shaped patch and the second U-shaped patch are arranged symmetrically relative to a central axis; the multi-stub microstrip line comprises a main transmission line inserted into an opening of the first U-shaped patch, a first pair of open-ended stubs and a second pair of open-ended stubs loaded at both sides close to openings of the first U-shaped patch and the second U-shaped patch; the main transmission line is loaded along the central axis, the first pair of open-ended stubs and the secon