Neural electrode array attachment

What is claimed is: 1. An electrode placement system, comprising: an electrode cuff comprising: a substrate having a tissue-facing surface curved in a concave shape; at least one electrode protrusion extending from the tissue-facing surface and including one or more individual electrodes thereon, each of the at least one electrode protrusion including a blunt distal end, wherein at least part of each of the one or more individual electrodes are exposed on the blunt distal end; and a driving tool positioned and configured to apply mechanical force to the substrate, the driving tool comprising an oscillating driver, a pneumatic driver, or both, wherein the driving tool is integrated into the electrode cuff. 2. The electrode placement system of claim 1 , wherein the driving tool includes the oscillating driver for delivering oscillating mechanical force to the substrate of the electrode cuff. 3. The electrode placement system of claim 2 , wherein the oscillating driver includes an ultrasonic transducer. 4. The electrode placement system of claim 1 , wherein the driving tool includes the pneumatic driver configured to apply a swift mechanical force to the substrate of the electrode cuff. 5. The electrode placement system of claim 4 , wherein the swift mechanical force is a force greater than 0.5 N. 6. The electrode placement system of claim 4 , wherein the swift mechanical force is applied for less than 1 s. 7. The electrode placement system of claim 4 , wherein the swift mechanical force exerts a force on the substrate of the electrode cuff that drives the electrode protrusions to penetrate a depth ranging from 2 μm to 20 μm of the nerve. 8. The electrode placement system of claim 4 , wherein the swift mechanical force is a force greater than 0.5 N that is applied for less than 1 s. 9. The electrode placement system of claim 1 , wherein the pneumatic driver is configured to receive a source of compressed air to provide the mechanical force. 10. The electrode placement system of claim 1 , further comprising: a sensor coupled to the at least one electrode protrusion to measure an insertion-indicative value, the insertion-indicative value being indicative of whether the at least one electrode protrusion has penetrated at least part of the nerve; and a controller coupled to the sensor and the driving tool to control the driving tool in response to the measured value. 11. The electrode placement system of claim 10 , wherein the sensor comprises an electrical sensor, a mechanical sensor, a temperature sensor, or an acoustic sensor. 12. The electrode placement system of claim 10 , wherein the driving tool includes at least one pneumatic actuator, and wherein the sensor is a pressure sensor for detecting pneumatic pressure applied to the at least one pneumatic actuator. 13. A method of applying an electrode cuff to target nerve, comprising: providing an electrode cuff comprising: a substrate having a tissue-facing surface curved in a concave shape; and at least one electrode protrusion extending from the tissue-facing surface and including one or more individual electrodes thereon, the at least one electrode protrusion includes a blunt distal end, wherein at least part of the one or more individual electrodes are exposed on the blunt distal end; and positioning the tissue-facing surface of the substrate against a nerve; and actuating a driving tool to apply a mechanical force to the electrode cuff to pierce the at least one protrusion into a nerve, wherein the driving tool is an oscillating driver, a pneumatic driver, or both, wherein the driving tool is integrated into the electrode cuff. 14. The method of claim 13 , further comprising: measuring an insertion-indicative value, the insertion-indicative value being indicative of whether the at least one electrode protrusion has penetrated at least part of the nerve; wherein actuating the driving tool further comprises dynamically controlling the mechanical force applied to the substrate in response to the measured insertion-indicative value. 15. The method of claim 13 , wherein the driving tool includes the oscillating driver, wherein actuating the oscillating driver comprises applying oscillating mechanical force to the electrode cuff to pierce the at least one protrusion into the nerve. 16. The method of claim 13 , wherein the driving tool includes the pneumatic driver, wherein actuating the pneumatic driver comprises applying swift mechanical force to the electrode cuff to pierce the at least one protrusion into the nerve. 17. The method of claim 16 , wherein the swift mechanical force is a force greater than 0.5 N that is applied for less than 1 s.