Flexible capacitive tactile sensor and method for manufacturing same and tactile sensing system

What is claimed is: 1. A flexible capacitive tactile sensor, comprising: a first flexible electrode layer, on which a first electrode array is disposed, the first electrode array comprising m series-connected electrodes parallel to a second direction; a second flexible electrode layer, on which a second electrode array is disposed, the second electrode array comprising n series-connected electrodes parallel to a first direction, the first electrode array and the second electrode array being disposed opposite to each other, and the first direction being different from the second direction; and an ion gel thin film dielectric layer, disposed between the first flexible electrode layer and the second flexible electrode layer, the first electrode array, the second electrode array, and the ion gel thin film dielectric layer forming m×n electric double layer capacitors, each of the electric double layer capacitors working independently as a tactile sensor, and m and n being positive integers; wherein a length of at least one of a plurality of electrodes of the first electrode array or the second electrode array in the first direction is a first length, and a length of the at least one electrode in the second direction is a second length, a distance between the electrodes on the first electrode array connected in series in the second direction being less than the second length, a distance between the electrodes on the second electrode array connected in series in the first direction being less than the first length, a distance between the electrodes on the first electrode array in the first direction being a third length, and a distance between the electrodes on the second electrode array in the second direction being a fourth length, and the first length, the second length, the third length, and the fourth length being less than 5 millimeters. 2. The flexible capacitive tactile sensor of claim 1 , wherein one or more electrodes in the first electrode array and the second electrode array are configured to receive a sensing excitation signal outputted by an excitation circuit; and the flexible capacitive tactile sensor is configured to: determine a touch sensing signal based on the sensing excitation signal and a change in a contact area between at least one of the first flexible electrode layer or the second flexible electrode layer and the ion gel thin film dielectric layer; and output the touch sensing signal to a signal detection circuit to determine a touch position and a touch strength according to the touch sensing signal. 3. The flexible capacitive tactile sensor of claim 1 , wherein the first flexible electrode layer comprises a first flexible thin film layer, the first electrode array being manufactured on the first flexible thin film layer by nano silver spraying or physical vapor deposition; and the second flexible electrode layer comprises a second flexible thin film layer, the second electrode array being manufactured on the second flexible thin film layer by nano silver spraying or physical vapor deposition. 4. The flexible capacitive tactile sensor of claim 1 , wherein the ion gel thin film dielectric layer comprising a polymer and an ionic liquid, the polymer comprising polyvinylidene fluoride-hexafluoropropylene, and the ionic liquid comprising 1-ethyl-3-methylimidazolium bis(trifluoromethylsulfonyl) imide. 5. The flexible capacitive tactile sensor of claim 1 , wherein each of the electrodes in the first electrode array and the second electrode array has a separate lead, leads of two opposite electrodes in the first electrode array and the second electrode array not intersecting in a direction in which the two electrodes overlap. 6. The flexible capacitive tactile sensor of claim 1 , wherein a surface of the ion gel thin film dielectric layer has a microstructure. 7. The flexible capacitive tactile sensor of claim 1 , further comprising: a first electrode-electrolyte interface formed between the first electrode array and the ion gel thin film dielectric layer; and a second electrode-electrolyte interface formed between the second electrode array and the ion gel thin film dielectric layer. 8. The flexible capacitive tactile sensor of claim 1 , wherein the first direction is perpendicular to the second direction. 9. A method for manufacturing a flexible capacitive tactile sensor, the method comprising: manufacturing a first flexible electrode layer on which a first electrode array is disposed, the first electrode array comprising m series-connected electrodes parallel to a second direction; manufacturing an ion gel thin film dielectric layer, and placing the ion gel thin film dielectric layer on the first flexible electrode layer; manufacturing a second flexible electrode layer on which a second electrode array is disposed, the second electrode array comprising n series-connected electrodes parallel to a first direction, the first electrode array and the second electrode array being disposed opposite to each other, and the first direction being different from the second direction; evaporating a patterned first electrode array or a patterned second electrode array on a first flexible thin film layer of the first flexible electrode layer or a second flexible thin film layer of the second flexible electrode layer; placing the second flexible electrode layer on the ion gel thin film dielectric layer; and packaging the first flexible electrode layer, the ion gel thin film dielectric layer, and the second flexible electrode layer into the flexible capacitive tactile sensor, the first electrode array, the second electrode array, and the ion gel thin film dielectric layer forming mxn electric double layer capacitors, each of the electric double layer capacitors working independently as a tactile sensor, and m and n being positive integers. 10. The method for manufacturing a flexible capacitive tactile sensor of claim 9 , wherein the manufacturing the first flexible electrode layer and the second flexible electrode layer further comprises: forming a patterned first electrode array or a patterned second electrode array on a first flexible thin film layer of the first flexible electrode layer or a second flexible thin film layer of the second flexible electrode layer by silver nanowire spraying. 11. The method for manufacturing a flexible capacitive tactile sensor of claim 10 , wherein the first flexible thin film layer and the second flexible thin film layer comprise at least one of the following materials: thermoplastic polyurethane (TPU) elastomer rubber, polyethylene terephthalate (PET), polyvinylidene fluoride (PVDF), polyvinyl alcohol (PVA), nylon 6 (PA6), polylactic acid (PLA), polyacrylonitrile (PAN), or polyethersulfone (PES). 12. The method for manufacturing a flexible capacitive tactile sensor of claim 10 , further comprising: forming a first electrode-electrolyte interface between the first electrode array and the ion gel thin film dielectric layer; and forming a second electrode-electrolyte interface between the second electrode array and the ion gel thin film dielectric layer. 13. The method for manufacturing a flexible capacitive tactile sensor of claim 9 , wherein the evaporating the patterned first electrode array or the patterned second electrode array further comprises: evaporating the patterned first electrode array or the patterned second electrode array on the first flexible thin film layer of the first flexible electrode layer or the second flexible thin film layer of the second flexible electrode layer by physical vapor deposition. 14. The method for manufacturing a flexible capacitive