Extended range gated time of flight camera

1 . A gated time of flight (GT-TOF) camera operable to determine distances to features in a scene, the GT-TOF camera comprising: a light source configured to transmit at least one train of light pulses to illuminate the scene; a photosensor comprising pixels configured to register amounts of light reflected from transmitted light pulses in the at least one light pulse train by features in the scene imaged on the pixels; a controller configured to gate ON the photosensor following each of a first plurality of transmitted light pulses in the at least one light pulse train for a first multi-exposure gate having a plurality of exposure periods and a hiatus between consecutive exposure periods to register first amounts of light reflected by features in the scene from the first plurality of light pulses. 2 . The GT-TOF camera according to claim 1 wherein to the controller is configured to gate ON the photosensor following each of a second plurality of transmitted light pulses for a first single-exposure gate having a single exposure period to register second amounts of light reflected by features in the scene from the second plurality of light pulses. 3 . The GT-TOF camera according to claim 2 wherein the controller determines a distance to a feature in the scene based on first and second amounts of reflected light that a pixel registers for the feature and during which exposure period of the first multi-exposure gate the pixel registered the first amount of light based on the first and second amounts of reflected light registered by the pixel for the feature. 4 . The GT-TOF camera according to claim 1 wherein the multi-exposure period comprises three or more exposure periods. 5 . The GT-TOF camera according to claim 2 wherein the controller gates ON the photosensor for a second multi-exposure gate following each of a third plurality of transmitted light pulses in the at least one light pulse train to register third amounts of light reflected from the third plurality of light pulses by features in the scene. 6 . The GT-TOF camera according to claim 5 wherein at least one of the first and second multi-exposure periods comprises three or more exposure periods. 7 . The GT-TOF camera according to claim 5 wherein the controller gates ON the photosensor for a second single-exposure gate following each of a fourth plurality of transmitted light pulses in the at least one light pulse train to register fourth amounts of light reflected from the fourth plurality of light pulses by features in the scene. 8 . The GT-TOF camera according to claim 7 wherein the controller determines a distance to a feature in the scene based on at least one of the first and third amounts of reflected light that a pixel registers for the feature and during which of the exposure periods of the at least one multi-exposure gates the pixel registered the at least one of the first and third amounts of reflected light for the feature. 9 . The GT-TOF camera according to claim 8 wherein the controller determines during which of the exposure periods of the first and second multi-exposure gates reflected light was registered by the pixel based on at least one of the first, second, third, and fourth amounts of light the pixel registers for the pixel 10 . A GT-TOF camera according to claim 7 wherein each of the exposure periods of the first and second multi-exposure gates have a substantially same duration. 11 . The GT-TOF camera according to claim 10 wherein the exposure periods of the first and second single-exposure gates have duration substantially equal to the duration of each of the exposure periods of the multi-exposure gates. 12 . The GT-TOF camera according to claim 7 wherein relative to transmission times of the light pulses that they respectively follow, the ON times of different exposure periods are different, and different ON times that are temporally adjacent differ by a same time interval. 13 . The GT-TOF camera according to claim 12 wherein the time interval is substantially equal to one third of a duration equal to a sum of a duration of an exposure period plus a duration of a hiatus separating two consecutive exposure periods of the first multi-exposure gate. 14 . The GT-TOF camera according to claim 13 wherein the duration of the exposure period and the hiatus are substantially equal. 15 . The GT-TOF camera according to claim 13 wherein each of the exposure periods of the single-exposure gates and multi-exposure gates have substantially a same duration. 16 . The GT-TOF camera according to claim 15 wherein the transmitted light pulses have a same pulse width, and the same duration of the exposure gates is substantially equal to the pulse width. 17 . The GT-TOF camera according to claim 7 wherein at least two of the pluralities of light pulses are transmitted in different light pulse trains. 18 . A method of determining distances to features in a scene the method comprising: transmitting at least one train of light pulses to illuminate the scene; following each light pulse of a first plurality of transmitted light pulses in the at least one light pulse train registering light reflected by a feature in the scene from the light pulse during an exposure period of a first multi-exposure gate having a plurality of exposure periods; and using the reflected light registered during the multi-exposure gate to determine a distance to the feature. 19 . The method according to claim 18 and further comprising following each light pulse of a second plurality of transmitted light pulses in the at least one light pulse train, registering light reflected by the feature from the light pulse during a single-exposure gate having a single exposure period and using the reflected light registered during the single exposure gate following the light pulse to determine the distance to the feature. 20 . The method according to claim 19 and further comprising following each light pulse of a third plurality of light pulses in the at least one light pulse train, registering light reflected by the feature from the light pulse during an exposure period of a second multi-exposure gate having a plurality of exposure periods; and using the reflected light registered during the second multi-exposure gate to determine a distance to the feature.