Time of flight sensing for providing security and power savings in electronic devices

The invention claimed is: 1. A method providing security for an electronic device, the method comprising: sensing through a time-of-flight measurement a distance of an object from the electronic device, the sensing through the time-of-flight measurement including: activating a laser diode to generate an optical signal having a power; and adjusting a power of the optical signal based on the sensed distance reaching a first threshold value; and controlling access to the electronic device based on the sensed distance. 2. The method of claim 1 , wherein sensing through the time-of-flight measurement the distance of the object comprises sensing a distance between a lid and a base of the electronic device when the electronic device is a laptop computer. 3. The method of claim 2 wherein controlling access to the electronic device based on the sensed distance includes locking access to the electronic device based on the sensed distance reaching a second threshold value that is less than the first threshold value. 4. The method of claim 3 , wherein locking access to the electronic device includes placing the electronic device into a low power mode of operation. 5. The method of claim 1 further comprising: capturing at least one initial digital image of the object, wherein the object is a face of an initial person; performing facial recognition on the at least one initial digital image; and generating recognition parameters for the face of the person based on the facial recognition performed on the at least one initial digital image and on the sensed distance of the face of the initial person when the at least one initial digital image was captured. 6. The method of claim 5 , further comprising: sensing through time-of-flight measurement, after the at least one initial digital image was captured, the distance of a face of a person from the electronic device; determining whether the face is within a range of the sensed distance of the face of the initial person when the at least one initial digital image was captured; providing feedback to the person if the face of the person is not within the range; capturing at least one additional digital image of face of the person, the capturing being adjusted based on the sensed distance of the person; performing facial recognition on the at least one additional digital image; determining whether the person is authenticated based on the facial recognition on the at least one additional digital image and on the recognition parameters; granting the person access to the electronic device based on determining the person has been authenticated; and denying the person access to the electronic device based on determining the person has not been authenticated. 7. The method of claim 1 , wherein sensing through the time-of-flight measurement the distance of an object comprises sensing through time-of-flight measurement respective distances between a plurality of objects and the electronic device. 8. The method of claim 7 , wherein controlling access to the electronic device based on the sensed distance comprises: detecting whether any of the plurality of objects is approaching the electronic device; performing facial recognition on any of the plurality of objects detected as approaching the electronic device; and providing feedback to a user of the electronic device if the facial recognition indicates any of the plurality of objects is a person. 9. An electronic device, comprising: a time-of-flight sensor configured to sense a distance between the electronic device and at least one object proximate the electronic device; processing circuitry coupled to the time-of-flight sensor and configured to control access to the electronic device based on the sensed distance; wherein the electronic device includes a laptop computer having a lid and a base, the time-of-flight sensor being positioned in the lid and configured to sense a distance between the lid and the base; and wherein the time-of-flight sensor is configured to generate an optical signal having a power, and wherein the processing circuitry is configured to reduce the power of the optical signal based on the sensed distance between the lid and the base reaching a first threshold value. 10. The electronic device of claim 9 , wherein the time-of-flight sensor includes a laser diode. 11. The electronic device of claim 10 , wherein the processing circuitry is further configured to lock access to the electronic device based on the sensed distance between the lid and the base reaching a second threshold value that is less than the first threshold value. 12. The electronic device of claim 11 , wherein the processing circuitry is further configured to place the laptop computer into a low power mode of operation based upon the sensed distance reaching the second threshold. 13. The electronic device of claim 9 further comprising: a digital camera coupled to the processing circuitry and configured to capture a digital images of the at least one object proximate the electronic device; and wherein the processing circuitry is configured to control the time-of-flight sensor and digital camera during an initialization process to cause the digital camera to capture at least one initial digital image of the at least one object and to perform facial recognition on the at least one initial digital image, and configured to generate facial recognition parameters for the at least one object when the at least one object is a face, the facial recognition parameters being based upon the at least one initial digital image and the sensed distance to the face when the at least one initial digital image was captured. 14. The electronic device of claim 13 , wherein the processing circuitry is further configured to control the time-of-flight sensor, after the digital camera has captured the at least one initial digital image, to sense the distance of a face of a person and to determine whether the face of the person is within a range of the sensed distance of the face of the initial person when digital camera captured the at least one initial digital image, and to provide feedback to the person if the face of the person is not within the range, and the processing circuitry further configured to adjust the operation of the digital camera based on the sensed distance of the face of the person and to cause the digital camera to capture at least one additional digital image of the face of the person, the processing circuitry configured to perform facial recognition on the at least one additional digital image and to authenticate the person based on the facial recognition and the recognition parameters and to provide access to the electronic device based upon the person being authenticated and to deny access to the electronic device based on the person not being authenticated. 15. The electronic device of claim 9 , wherein the time-of-flight sensor is configured to sense the respective distances between a plurality of objects and the electronic device. 16. The electronic device of claim 15 , wherein the processing circuitry is further configured to detect whether any of the plurality of objects is approaching the electronic device and to perform facial recognition on any of the plurality of objects detected as approaching the electronic device and to providing feedback to a user of the electronic device if the facial recognition indicates any of the plurality of objects is a person. 17. An electronic device, comprising: a time-of-flight sensor configured to sense a distance between the electronic device and a per