Wearable article having an actuator that performs non-haptic and haptic operations

The invention claimed is: 1. A wearable haptics-enabled apparatus comprising; a wearable article, the wearable article being footwear wearable by a person and comprising an actuator and an input device, the wearable article including a fastener, the actuator including a motor, and the motor including a movable member operably connected to the fastener: and a controller electrically connected to the actuator and the input device, the controller configured to selectively transmit operation and haptic drive signals to the actuator, the controller further configured to generate a haptic drive signal upon receiving an input signal from the input device, the haptic drive signal embodying a message. 2. The wearable haptics-enabled apparatus of claim 1 wherein the wearable article further comprises: a smart material connected to the controller. 3. The wearable haptics-enabled apparatus of claim 2 wherein: the wearable article comprises fabric; and the smart material is a strand incorporated into the fabric. 4. The wearable haptics-enabled apparatus of claim 3 wherein; the smart material moves relative to the fabric upon application of a predetermined stimulus to the smart material. 5. The wearable haptics-enabled apparatus of claim 3 wherein: the fabric comprises woven strands; and the smart material forms at least one of the woven strands. 6. The wearable haptics-enabled apparatus of claim 3 wherein: the smart material forms an additional fastener for the wearable article. 7. The wearable haptics-enabled apparatus of claim 2 wherein: the smart material is selected from the group consisting essentially of shape memory alloys, piezoelectric materials, electrorheostatic materials, magnetorheostatic materials, magnetostrictive materials, magnetic shape memory alloys, pH-sensitive polymers, ferrofluidic materials, and fluidic materials. 8. The wearable haptics-enabled apparatus of claim 1 wherein: the motor is selected from the group consisting essentially of a servo motor and a stepper motor. 9. The wearable haptics-enabled apparatus of claim 1 wherein: the fastener comprises a fastener member, the fastener member having a range of motion; and the controller is configured to apply the haptic drive signal to the motor, the haptic drive signal controlling the motor to move the fastener member a distance less than the range of motion. 10. The wearable haptics-enabled apparatus of claim 9 wherein: the haptic drive signal is based on a varying parameter; and the controller is configured to apply the haptic drive signal to the motor, the haptic drive signal controlling the motor to have a dynamic movement. 11. The wearable haptics-enabled apparatus of claim 9 wherein: the haptic drive signal is based on a varying parameter; and the controller is configured to apply the haptic drive signal to the motor, the haptic drive signal controlling the motor to move in a predetermined pattern. 12. The wearable haptics-enabled apparatus of claim 1 wherein; the wearable article further comprises an RFD tag; and the RFID tag stores identifying information. 13. The wearable haptics-enabled apparatus of claim 12 wherein: the identifying information identifies a person. 14. The wearable haptics-enabled apparatus of claim 12 wherein: the identifying information identifies the wearable article. 15. The wearable haptics-enabled apparatus of claim 1 wherein: the input device comprises a sensor. 16. The wearable haptics-enabled apparatus of claim 15 wherein the controller comprises: non-transitory memory storing a haptic determination module and a haptic control module, the haptic determination module programmed to determine haptic data associated with an input from the sensor, and the haptic control module programmed to generate a haptic control signal embodying the haptic data; an actuator drive circuit in electrical communication with the actuator, the actuator drive circuit configured to generate a haptic drive signal upon receiving the haptic signal and to apply the haptic drive signal to the actuator; and a programmable circuit in electrical communication with the sensor, the non-transitory memory, and the actuator drive circuit, the programmable circuit programmed to send the haptic signal to the actuator drive circuit. 17. The wearable haptics-enabled apparatus of claim 1 wherein: the input device comprises an antenna; the antenna outputs the input signal in response to the antenna receiving an electromagnetic wave; and the controller is configured to selectively generate the haptic drive signal upon receiving the input signal from the antenna and the input signal is associated with a haptic effect. 18. The wearable haptics-enabled apparatus of claim 17 wherein: the antenna outputs the input signal in response to the antenna receiving an electromagnetic wave from a transmitting antenna in electrical communication with a remote device and the remote device is in data communication with a local area network. 19. A wearable haptics-enabled apparatus comprising: a wearable article, the wearable article being wearable by a person and comprising a fastener, a motor operably connected to the fastener, and a sensor, the fastener comprising a fastener member, the fastener member having a range of motion; a controller electrically connected to the motor and an input device, the controller comprising: non-transitory memory storing a haptic determination module and a haptic control module, the haptic determination module programmed to determine haptic data associated with an input from the sensor, and the haptic control module programmed to generate a haptic signal embodying the haptic data; an actuator drive circuit in electrical communication with the motor, the actuator drive circuit configured to selectively apply a non-haptic drive signal to the motor and to selectively apply a haptic drive signal to the motor upon receiving the haptic signal, the haptic drive signal controlling the motor to move the fastener member a distance less than the range of motion; a programmable circuit in electrical communication with the sensor, the non-transitory memory, and the actuator drive circuit, the programmable circuit programmed to selectively deliver the haptic signal to the actuator drive circuit; and the haptic data, haptic signal, and haptic drive signal embodying a message. 20. A method of delivering haptic feedback through a wearable article, the method comprising: receiving an input signal in a controller, the controller electrically coupled to an actuator, the controller and the actuator operably connected to the wearable article; selectively generating a non-haptic drive signal and applying the non-haptic drive signal to the actuator, the selective generation of a non-haptic drive signal occurring in response to the controller receiving a non-haptic input signal; and selectively generating a haptic drive signal and applying the haptic drive signal to the actuator, the selective generation of the haptic drive signal occurring in response to the controller receiving a haptic input signal, the haptic input signal associated with haptic data. 21. The method of claim 20 , wherein the actuator is a smart material, the method further comprising: moving the smart material relative to at least a portion of the wearable article on applying the haptic drive signal to the actuator. 22. The method of claim 21 , wherein the wearable article