Noise considerations for a 64x8 pixel CMOS time of flight range sensor (2007)
Elkhalili, O., Brockherde, W., Hosticka, B.J., Schrey, O.M., Ulfig, W.
Noise analysis for a 64x8 pixel 3-D CMOS image sensor based on the time-of-flight (TOF) principle for car safety applications is presented. Due to low noise equivalent power (NEP) the sensor enables...
Three-dimensional CMOS image sensor for pedestrian protection and collision mitigation (2006)
Mengel, P., Listl, L., König, B., Toepfer, C., Pellkofer, M., Brockherde, W., ...
Future car safety systems increasingly depend on the availability of robust sensors with vital improved technical perception output. For this objective, we develop a pulsed laser based time of flight...
Three-dimensional CMOS image sensor with 4x64 pixel array (2004)
Elkhalili, O., Schrey, O.M., Jeremias, R., Mengel, P., Petermann, M., Brockherde, W., ...
A 3D CMOS imager based on time-of-flight (TOF) has been developed and successfully tested. It uses an active pulsed class 1 laser operating at 905nm to illuminate a 3D scene. The scene depth is...
A 4 x 64 pixel CMOS image sensor for 3-D measurement applications (2004)
Elkhalili, O., Schrey, O.M., Mengel, P., Petermann, M., Brockherde, W., Hosticka, B.J.
A 4 x 64 pixel 3-D CMOS imager based on time-of-flight (TOF) has been developed and successfully tested. The measurement range is up to 8 m with resolution of 1 cm. The scene depth is determined by...
3D-CMOS-Kamerasystem mit TOF-Messmethode (2003)
Brockherde, W., Schrey, O.M., Dinkelbach, R.
Das Fraunhofer-Institut für Mikroelektronische Schaltungen und Systeme (IMS) hat in Zusammenarbeit mit Siemens ein 3D-CMOS-Kamerasystem entwickelt, welches eine echte 3D-Aufnahme durch Verwendung...
Dreidimensionales Sehen mit CMOS-Bildsensoren (2003)
Das Fraunhofer Institut für Mikroelektronische Schaltungen und Systeme in Duisburg entwickelt CMOS-Bildsensoren, die unabhängig von den Umgebungslichtbedingungen mittels eines...