Title :
Solid-state time-of-flight range camera
Author :
Lange, Robert ; Seitz, Peter
Author_Institution :
Ind. 11, Niederhasli, Switzerland
fDate :
3/1/2001 12:00:00 AM
Abstract :
The concept of a real-time range camera without moving parts is described, based on the time-of-flight (TOF) principle. It operates with modulated visible and near-infrared radiation, which is detected and demodulated simultaneously by a 2-D array of lock-in pixels employing the charge-coupled device principle. Each pixel individually measures the amplitude, offset and phase of the received radiation. The theoretical resolution limit of this TOF range camera is derived, which depends on the square root of the detected background radiation and the inverse of the modulation amplitude. Actual measurements of 3-D sequences acquired at 10 range images per second show excellent agreement between our theory and the observed results. A range resolution of a few centimeters over a range of 10 m, with an illumination power of a few hundreds of milliwatts is obtained in laboratory scenes for noncooperative, diffusely reflecting objects
Keywords :
CCD image sensors; CMOS image sensors; cameras; distance measurement; optical arrays; optical modulation; real-time systems; 10 m; 2D array; 3D sequences; TOF range camera; charge-coupled device principle; demodulated radiation; detected background radiation; detected radiation; illumination power; laboratory scenes; lock-in pixels; modulated near-infrared radiation; modulated visible radiation; modulation amplitude; noncooperative diffusely reflecting objects; observed results; radiation amplitude; radiation offset; radiation phase; range resolution; real-time range camera; received radiation; solid-state time-of-flight range camera; square root; theory; time-of-flight principle; Cameras; Demodulation; Layout; Optical modulation; Optical noise; Optical sensors; Solid state circuits; Stereo vision; Time measurement; Ultrasonic variables measurement;
Journal_Title :
Quantum Electronics, IEEE Journal of
