Gesture recognition device and method for sensing multi-factor assertion

What is claimed is: 1. A gesture recognition (GR) device, comprising: a capacitive touch sensor panel comprising a plurality of sensing pads arranged in a cylindrical pattern inside a handle of the GR device, the capacitive touch sensor panel configured to: detect a multi-factor touch assertion at a set of sensing pads of the plurality of sensing pads; and a controller coupled to the plurality of sensing pads, the controller configured to: transmit a driving signal to each of the plurality of sensing pads for the detection of the multi-factor touch assertion; generate an assertion signal that corresponds to the detected multi-factor touch assertion, wherein the assertion signal is generated based on the detected multi-factor touch assertion for a plurality of grip techniques; determine a signal sequence based on the assertion signal; and convert a current inactive state of the GR device to an active state based on a validation of the determined signal sequence corresponding to the multi-factor touch assertion and an inferred user intent. 2. The GR device according to claim 1 , wherein the arrangement of the cylindrical pattern of the plurality of sensing pads is such that a longitudinal axis of each sensing pad is arranged orthogonally to a circular axis inside the handle of the GR device. 3. The GR device according to claim 1 , wherein the arrangement of the cylindrical pattern of the plurality of sensing pads enables a 360-degree capacitive touch for the multi-factor touch assertion. 4. The GR device according to claim 1 , wherein the controller is further configured to determine the inferred user intent based on the detected multi-factor touch assertion and the determined signal sequence, and wherein the inferred user intent is determined based on a combination of type of grip technique on the handle and subsequent finger and/or thumb press performed by a user. 5. The GR drive according to claim 1 , wherein the assertion signal corresponds to one of a first detection factor, a second detection factor or an optional third detection factor, wherein the first detection factor is an initial assertion of at least one sensing pad on one side of the handle resulting from a natural or learned grip technique performed by a user, wherein the second detection factor is a subsequent additional assertion of at least one positionally opposite sensing pad by thumb or index finger of the user, and wherein the optional third detection factor is sensing a three dimensional movement of the GR device during the subsequent additional assertion. 6. The GR device according to claim 5 , wherein a first grip technique from the plurality of grip techniques for the multi-factor touch assertion corresponds to a first touch and continually maintained assertion by a second digit of hand on at least one sensing pad, and wherein the assertion signal is generated based on the first grip technique. 7. The GR device according to claim 5 , wherein a second grip technique from the plurality of grip techniques for the multi-factor touch assertion corresponds to a first touch and a second touch continually maintained assertions by a first digit and a third digit of hand, respectively, on at least two sensing pads, and a third touch asserted by a second digit of the hand on a remaining sensing pad between the at least two sensing pads, and wherein the assertion signal is generated based on the second grip technique. 8. The GR device according to claim 5 , wherein a third grip technique from the plurality of grip techniques for the multi-factor touch assertion corresponds to a first touch and continually maintained assertion by a first digit of hand on at least one sensing pad and a second touch asserted by a second digit of the hand on the at least one positionally opposite sensing pad, and wherein the assertion signal is generated based on the third grip technique. 9. The GR device according to claim 5 , wherein a fourth grip technique from the plurality of grip techniques for the multi-factor touch assertion corresponds to a tap gesture provided by a first or a second digit of hand on at least one sensing pad, and wherein the assertion signal is generated based on the fourth grip technique. 10. The GR device according to claim 9 , wherein an accelerometer, coupled with the plurality of sensing pads, is configured to detect the tap gesture. 11. The GR device according to claim 1 , wherein the controller is further configured to change the active state of the GR device to a sleep state in absence of the multi-factor touch assertion at the set of sensing pads for a pre-defined time duration. 12. The GR device according to claim 1 , wherein the conversion of the current inactive state of the GR device to the active state is further based on the driving signal received from the controller and a touch gesture received from at least a digit of hand of a user. 13. The GR device according to claim 1 , wherein a frequency value of the driving signal received from the controller has a pre-defined value. 14. The GR device according to claim 1 , wherein a sensing period and a duty cycle of the plurality of sensing pads is less than a threshold value. 15. The GR device according to claim 1 , wherein the GR device is a wireless interactive wand or a smart wand configured to communicate wirelessly via a radio frequency (RF) or an infrared (IR) communication mode with other devices by utilizing power generated by a power storage unit. 16. The GR device according to claim 1 , wherein the GR device is an interactive wand configured to illuminate in a plurality of sections by utilizing power generated by a power storage unit. 17. The GR device according to claim 1 , wherein the GR device is an interactive wand configured to generate haptic feedback by utilizing power generated by a power storage unit. 18. The GR device according to claim 1 , wherein the capacitive touch sensor panel is integrated on flex printed circuit board and wrapped to form a cylindrical shape within the GR device. 19. The GR device according to claim 1 , wherein the capacitive touch sensor panel is communicatively coupled to a printed circuit board housing the controller via a flex connector. 20. A capacitive touch sensor panel, comprising: a plurality of sensing pads arranged in a cylindrical pattern inside a handle of a gesture recognition (GR) device, the arrangement of the plurality of sensing pads in the cylindrical pattern is such that a longitudinal axis of each sensing pad is arranged orthogonally to a circular axis around the handle of the GR device, the plurality of sensing pads communicatively coupled to a capacitive touch sensor controller, the capacitive touch sensor controller being configured to: transmit a driving signal to each of the plurality of sensing pads; detect a multi-factor touch assertion at a set of sensing pads from the plurality of sensing pads; generate an assertion signal in response to the detected multi-factor touch assertion, wherein the assertion signal is generated based on the detected multi-factor touch assertion for a plurality of grip techniques; and transmit the generated assertion signal to a controller, wherein the GR device is activated by the controller based on a validation of a signal sequence determined based on the generated assertion signal and an inferred user intent. 21. The capacitive touch sensor panel according to claim 20 , wherein the plurality of sensing pads is arranged in the cylindrical pa