Intelligent electronic footwear and control logic for executing automated footwear features

What is claimed: 1. An intelligent electronic shoe (IES) system, comprising: an upper configured to attach to a foot of a user; a sole structure attached to the upper and configured to support thereon the foot of the user, the sole structure defining a ground-engaging surface; a controller-automated alert system mounted to the sole structure and/or the upper and configured to generate visible, audible and/or tactile outputs responsive to command signals; a pressure sensor mounted to the sole structure and/or upper and configured to detect a presence of the foot in the upper; a wireless communications device configured to wirelessly communicate with a remote computing node; and a footwear controller operatively connected to the wireless communications device, the pressure sensor, and the alert system, the footwear controller being configured to: receive location data indicative of a user location of the user; receive location data indicative of a node location of the remote computing node; determine whether the user location is within a predetermined location or proximity to the node location; and responsive to the detected presence of the foot in the upper and the user location being within the predetermined location or proximity to the node location, transmit a command signal to the alert system to generate a predetermined visible, audible and/or tactile alert perceptible by the user and/or the remote computing node. 2. The IES system of claim 1 , wherein the footwear controller is further configured to transmit, in response to the user location being within the predetermined location or proximity to the node location, a second command signal to a control system of the remote computing node to generate an audible or visual output. 3. The IES system of claim 2 , wherein the remote computing node is a motor vehicle with a vehicle headlamp system, and wherein the visual output includes illumination, flashing and/or intensification of a light output of the vehicle headlamp system. 4. The IES system of claim 3 , wherein the alert system includes a light system, and wherein the footwear controller is further configured to coordinate the light output of the vehicle headlamp system with a predetermined light output of the light system. 5. The IES system of claim 2 , wherein the remote computing node is a motor vehicle with a vehicle horn system, and wherein the audible output includes activation and/or modulation of an audible output of the vehicle horn system. 6. The IES system of claim 1 , wherein the user has a portable electronic device, and wherein the wireless communications device is further configured to wirelessly connect to the portable electronic device and thereby wirelessly communicate with the remote computing node. 7. The IES system of claim 1 , wherein the alert system includes a haptic transducer, and wherein the command signal causes the haptic transducer to generate a haptic cue. 8. The IES system of claim 1 , wherein the alert system includes an audio system, and wherein the command signal causes the audio system to generate a predetermined sound output. 9. The IES system of claim 1 , wherein the predetermined location includes a geofence defined by the footwear controller, and wherein the command signal is transmitted to the alert system upon detection of the remote computing node breaching the geofence. 10. The IES system of claim 1 , wherein the pressure sensor is further configured to detect a weight of the user and output a sensor signal indicative thereof to the footwear controller, and wherein the command signal is transmitted to the alert system further in response to the detected weight of the user being within a predetermine range of a memory-stored validated user weight. 11. An intelligent electronic shoe (IES) system, comprising: an upper configured to attach to a foot of a user; a sole structure attached to the upper and configured to support thereon the foot of the user, the sole structure defining a ground-engaging surface; a controller-automated alert system mounted to the sole structure and/or the upper and configured to generate visible, audible and/or tactile outputs responsive to command signals; a pressure sensor mounted to the sole structure and/or upper and configured to detect a weight of the user; a wireless communications device configured to wirelessly communicate with a remote computing node; and a footwear controller operatively connected to the wireless communications device, pressure sensor, and alert system, the footwear controller being configured to: receive, from the pressure sensor, a sensor signal indicative of the detected weight of the user; determine if the detected weight is within a predetermine range of a memory-stored validated user weight; receive location data indicative of a user location of the user; receive location data indicative of a node location of the remote computing node; determine whether the user location is within a predetermined location or proximity to the node location; and in response to the detected weight being within the predetermine range of the memory-stored validated user weight and the user location being within the predetermined location or proximity to the node location, transmit a command signal to the alert system to generate a predetermined visible, audible and/or tactile alert perceptible by the user and/or the remote computing node. 12. An intelligent electronic shoe (IES) system, comprising: an upper configured to attach to a foot of a user; a sole structure attached to the upper and configured to support thereon the foot of the user, the sole structure defining a ground-engaging surface; a controller-automated alert system mounted to the sole structure and/or the upper and configured to generate visible, audible and/or tactile outputs responsive to command signals; a shoelace attached to the upper; a lace motor mounted inside the sole structure and configured to selectively transition the shoelace between a tensioned state and an untensioned state; a wireless communications device configured to wirelessly communicate with a remote computing node; and a footwear controller operatively connected to the wireless communications device, lace motor, and alert system, the footwear controller being configured to: communicate with the lace motor to determine whether the shoelace is in the tensioned or untensioned state receive location data indicative of a user location of the user; receive location data indicative of a node location of the remote computing node; determine whether the user location is within a predetermined location or proximity to the node location; and in response to the shoelace being in the tensioned state and the user location being within the predetermined location or proximity to the node location, transmit a command signal to the alert system to generate a predetermined visible, audible and/or tactile alert perceptible by the user and/or the remote computing node. 13. The IES system of claim 12 , wherein the tensioned state includes a plurality of discrete tensioned positions, the IES system further comprising a lace sensor configured to detect a current one of the discrete tensioned positions for the user, and wherein the footwear controller is further configured to: receive, from the lace sensor, a sensor signal indicative of the current one of the discrete tensioned positions for the user; and determine if the current one of the discrete tensioned positions corresponds to a memory-stored validated lace tensioned position, wherein the command signal is transmitted to the alert system further in response