System and Method for Augmented Localization of WiFi Devices

We claim: 1 . A method for registering a location of a device with a floor plan of an indoor space, comprising: determining a portion of the floor plan specifying a coarse location of the device using strength of WiFi signals received from at least three access points (APs), wherein a location of each AP is registered with the floor plan; determining at least one distance between the device and at least one object registered with the floor plan using a time-of-flight of at least one acoustic signal; and registering the location of the device within the portion of the floor plan at the distance from the object, wherein at least some steps of the method are performed using a processor. 2 . The method of claim 1 , wherein the determining the distance comprises: determining a first distance between the device and a first object located at a first location registered with the floor plan; and determining a second distance between the device and a second object located at a second location registered with the floor plan; and wherein the registering comprises: determining, within the portion of the floor plan, a location of an intersection of a first circle of the first radius centered on the first location and a second circle of the second radius centered the second location; and registering the location of the device at the location of the intersection. 3 . The method of claim 1 , wherein the determining the distance comprises: determining the distance using an active ranging or a passive ranging. 4 . The method of claim 1 , wherein the determining the distance uses an active ranging, comprising: transmitting a first acoustic signal from a speaker of the device at a start time; receiving a second acoustic signal by a microphone of the device at an end time, wherein the second acoustic signal is transmitted by the object in response to receiving the first acoustic signal; receiving, via a WiFi transceiver of the device, a delay period specifying a time delay between receiving the first acoustic signal at the object and transmitting by the object the second acoustic signal; and determining the time-of-flight of the acoustic signal as a time between the start time and the end time reduced by the delay period. 5 . The method of claim 4 , further comprising: determining the start time at a time of detecting the first acoustic signal by the microphone of the device; and determining the end time at a time of detecting the second acoustic signal by the microphone of the device. 6 . The method of claim 4 , wherein the object is the AP used for determining the coarse location. 7 . The method of claim 1 , wherein the determining the distance uses a passive ranging, comprising: transmitting the acoustic signal from a speaker of the device at a start time; receiving, at a first time by a first microphone of the device, a first reflection of the acoustic signal from the object; receiving, at a second time by a second microphone of the device, a second reflection of the acoustic signal from the object; determining a first distance to the object using a time-of-flight of the first reflection of the acoustic signal between the start time and the first end time; determining a second distance to the object using a time-of-flight of the second reflection of the acoustic signal between the start time and the second end time; and determining the distance between the device and the object and an angle of a direction from the device to the object using the first distance, the second distance and a distance between the first and the second microphones. 8 . The method of claim 7 , further comprising: receiving multiple reflections of the acoustic signal reflected from different points on a surface of the object; determining locations of the different points of the object with respect to the device; clustering the locations to determine a shape of the object; and matching the shape of the object to a shape of an element of the portion of the floor plan to register the object with the floor plan. 9 . A device, comprising: a WiFi transceiver to transmit and to receive WiFi signals, and to determine strength of at least three WiFi signals received from at least three access points (APs), wherein a location of each AP is registered with the floor plan; an acoustic transceiver to transmit and to receive acoustic signals, the acoustic transceiver determines at least one distance between the device and at least one object registered with the floor plan using a time-of-flight of an acoustic signal; and a processor to determine a portion of the floor plan specifying a coarse location of the device using the strengths of the received WiFi signals received from the APs registered with the floor plan, and to register the location of the device within the portion of the floor at the distance from the object. 10 . The device of claim 9 , wherein the acoustic transceiver includes a speaker to transmit the acoustic signal and a microphone to receive at least one reflection of the acoustic signal. 11 . The device of claim 9 , wherein the acoustic transceiver determines the distance using an active ranging by executing steps comprising: transmitting a first acoustic signal from a speaker of the device at a start time; receiving a second acoustic signal by a microphone of the device at an end time, wherein the second acoustic signal is transmitted by the object in response to receiving the first acoustic signal; receiving, via a WiFi transceiver of the device, a delay period specifying a time delay between receiving the first acoustic signal at the object and transmitting by the object the second acoustic signal; and determining the time-of-flight of the acoustic signal as a time between the start time and the end time reduced by the delay period. 12 . The device of claim 11 , wherein the object is the AP used for determining the coarse location. 13 . The device of claim 9 , wherein the acoustic transceiver determines the distance using a passive ranging by executing steps comprising: transmitting the acoustic signal from a speaker of the device at a start time; receiving, at a first time by a first microphone of the device, a first reflection of the acoustic signal from the object; receiving, at a second time by a second microphone of the device, a second reflection of the acoustic signal from the object; determining a first distance to the object using a time-of-flight of the first reflection of the acoustic signal between the start time and the first end time; determining a second distance to the object using a time-of-flight of the second reflection of the acoustic signal between the start time and the second end time; and determining the distance between the device and the object and an angle of a direction from the device to the object using the first distance, the second distance and a distance between the first and the second microphones. 14 . The device of claim 13 , wherein the acoustic transceiver registers the object with the floor plan by executing steps comprising: receiving multiple reflections of the acoustic signal reflected from different points on a surface of the object; determining locations of the different points of the object with respect to the device; clustering the locations to determine a shape of the object; and matching the shape of the object to a shape of an element of the portion of the floor plan to register the object with the floor plan.