Add to ORKGThe human visual system is extremely sensitive to biological signals around us. In the current study, we demonstrate that biological motion walking direction can induce robust reflexive attentional orienting. Following a brief presentation of a central point-light walker walking towards either the left or right direction, observers' performance was significantly better on a target in the walking direction compared with that in the opposite direction even when participants were explicitly told that walking direction was not predictive of target location. Interestingly, the effect disappeared when the walker was shown upside-down. Moreover, the reflexive attentional orienting could be extended to motions of other biological entities but not i...
Previous research has demonstrated that biological motion (BM) cues can induce a reflexive attention...
Previous research has demonstrated that biological motion (BM) cues can induce reflexive attentional...
The present study investigates whether the walking direction of a biological motion point-light disp...
The human visual system is extremely sensitive to biological signals around us. In the current study...
Most vertebrates, humans included, have a primitive visual system extremely sensitive to the motion ...
Most vertebrates, humans included, have a primitive visual system extremely sensitive to the motion ...
Walking direction conveyed by biological motion (BM) cues, which humans are highly sensitive to sinc...
Walking direction conveyed by biological motion (BM) cues, which humans are highly sensitive to sinc...
Walking direction conveyed by biological motion (BM) cues, which humans are highly sensitive to sinc...
Our ability to see meaningful actions when presented with point-light traces of human movement is co...
Our ability to see meaningful actions when presented with point-light traces of human movement is co...
Our ability to see meaningful actions when presented with point-light traces of human movement is co...
The human visual system is extremely sensitive to the direction information retrieved from biologica...
The human visual system is extremely sensitive to the direction information retrieved from biologica...
Our ability to see meaningful actions when presented with point-light traces of human movement is co...
Previous research has demonstrated that biological motion (BM) cues can induce a reflexive attention...
Previous research has demonstrated that biological motion (BM) cues can induce reflexive attentional...
The present study investigates whether the walking direction of a biological motion point-light disp...
The human visual system is extremely sensitive to biological signals around us. In the current study...
Most vertebrates, humans included, have a primitive visual system extremely sensitive to the motion ...
Most vertebrates, humans included, have a primitive visual system extremely sensitive to the motion ...
Walking direction conveyed by biological motion (BM) cues, which humans are highly sensitive to sinc...
Walking direction conveyed by biological motion (BM) cues, which humans are highly sensitive to sinc...
Walking direction conveyed by biological motion (BM) cues, which humans are highly sensitive to sinc...
Our ability to see meaningful actions when presented with point-light traces of human movement is co...
Our ability to see meaningful actions when presented with point-light traces of human movement is co...
Our ability to see meaningful actions when presented with point-light traces of human movement is co...
The human visual system is extremely sensitive to the direction information retrieved from biologica...
The human visual system is extremely sensitive to the direction information retrieved from biologica...
Our ability to see meaningful actions when presented with point-light traces of human movement is co...
Previous research has demonstrated that biological motion (BM) cues can induce a reflexive attention...
Previous research has demonstrated that biological motion (BM) cues can induce reflexive attentional...
The present study investigates whether the walking direction of a biological motion point-light disp...