Intelligent holster spacer

We claim: 1. A holster spacer adaptable for use within a holster assembly including a wearable component and a separable holster supported by the wearable component, the holster spacer comprising: a wearable component-facing surface; a holster-facing surface opposite the wearable component-facing surface; a mounting interface for securing the holster spacer between the wearable component and the holster, wherein the mounting interface includes one or more apertures; an internal cavity provided between the wearable component-facing surface and the holster-facing surface; and a sensor positioned in the internal cavity and operable to detect a parameter relating to an implement positionable within the holster, wherein the sensor includes an inductive sensing element. 2. The holster spacer of claim 1 , wherein the one or more apertures includes first and second apertures provided adjacent a first end of the holster spacer and a third aperture provided adjacent a second end of the holster spacer, wherein the first and second apertures are spaced apart from each other along a first axis, and the third aperture is equally spaced from each of the first and second apertures along a second axis that bisects the first axis. 3. The holster spacer of claim 2 , wherein a first spacing distance between the first and second apertures along the first axis is less than a second spacing distance from the third aperture to the first and second apertures. 4. The holster spacer of claim 2 , wherein the sensor is located within an imaginary envelope area defined by connecting the first, second, and third apertures. 5. The holster spacer of claim 2 , wherein the sensor is located outside of an imaginary envelope area defined by connecting the first, second, and third apertures. 6. The holster spacer of claim 1 , wherein the sensor is a presence sensor operable to detect whether or not the implement is positioned within the holster and further operable to output a position notification signal. 7. The holster spacer of claim 1 , wherein the sensor is a proximity sensor operable to detect a proximity of the implement with respect to the proximity sensor and further operable to output a proximity notification signal. 8. The holster spacer of claim 1 , further comprising electronic circuitry provided within the internal cavity, the electronic circuitry for processing an output of the sensor. 9. The holster spacer of claim 8 , wherein the electronic circuitry further includes a transceiver operable to receive the output of the sensor and further operable to transmit a wireless signal indicative thereof to a remote device. 10. The holster spacer of claim 8 , wherein the electronic circuitry includes a power source comprising one or more of the following: a primary battery, a rechargeable battery, a supercapacitor, and an energy harvesting circuit. 11. The holster spacer of claim 8 , wherein the electronic circuitry includes a wireless charging circuit. 12. The holster spacer of claim 1 , further comprising a user interface including any one or more of the following: an indicator light, a piezo buzzer, a speaker, a vibrator, and a haptic micro-electric-mechanical device. 13. A holster assembly comprising: a holster defining a receiving area for an implement; and a holster spacer positioned alongside the holster and having a thickness configured to increase a spacing distance between a wearer of the holster and a surface of the holster configured to face towards the wearer, wherein the holster spacer includes a mounting interface with one or more apertures, wherein the holster spacer includes a sensor operable to detect a parameter relating to the implement positionable within the receiving area of the holster, wherein the sensor includes an inductive sensing element. 14. The holster assembly of claim 13 , wherein the one or more apertures includes first and second apertures provided adjacent a first end of the holster spacer and a third aperture provided adjacent a second end of the holster spacer, wherein the first and second apertures are spaced apart from each other along a first axis, and the third aperture is equally spaced from each of the first and second apertures along a second axis that bisects the first axis. 15. The holster assembly of claim 14 , wherein a first spacing distance between the first and second apertures along the first axis is less than a second spacing distance from the third aperture to the first and second apertures. 16. The holster assembly of claim 14 , wherein the sensor is located within an imaginary envelope area defined by connecting the first, second, and third apertures. 17. The holster assembly of claim 14 , wherein the sensor is located outside of an imaginary envelope area defined by connecting the first, second, and third apertures. 18. The holster assembly of claim 13 , wherein the holster spacer includes an internal cavity, and electronic circuitry within the internal cavity, the electronic circuitry for processing an output of the sensor. 19. The holster assembly of claim 18 , wherein the sensor is a presence sensor operable to detect whether or not the implement is positioned within the holster and further operable to output a presence notification signal. 20. The holster assembly of claim 18 , wherein the sensor is a proximity sensor operable to detect a proximity of the implement with respect to the proximity sensor and further operable to output a proximity notification signal. 21. The holster assembly of claim 18 , wherein the electronic circuitry includes a transceiver operable to receive the output of the sensor and further operable to transmit a wireless signal indicative thereof to a remote device. 22. The holster assembly of claim 18 , wherein the electronic circuitry includes a power source comprising one or more of the following: a primary battery, a rechargeable battery, a supercapacitor, and an energy harvesting circuit. 23. The holster assembly of claim 18 , wherein the electronic circuitry includes a wireless charging circuit. 24. The holster assembly of claim 13 , further comprising a user interface including any one or more of the following: an indicator light, a piezo buzzer, a speaker, a vibrator, and a haptic micro-electric-mechanical device.