Thats not a fisheye lens, however, 99% of all lenses kinda fisheye. The only way to get a true picture is to use Optically Correct lenses, which I havent seen manufactured now as much as they were in the 1970s. So yeah, grab any camera you want now and at far distances everything bends. Whats coincidental is that further than that, your eyes are not perfectly optically correct either...
All pro photographers know this, especially corporate photographers for architectural and large-scale engineering work, those pictures have to be corrected digitally because sufficient enough semi-fisheyeness uses less lenses and groups to manufacture. And when optical or digital Optical Correctives are applied, it straightens out objects at a further distance that the human eye had seen curved.
Our eyes are not a straight throughput stream, like a tube or something, its biological, spongy, and electrical. The back of the eye sees the world upside down, the left eye is received by the right brain and the right eye is received by the left brain, and the brain flips the input rightside up and combines them. Does that sound as simple as a camera lens to a CMOS plane?
Thats not a fisheye lens, however, 99% of all lenses kinda fisheye. The only way to get a true picture is to use Optically Correct lenses, which I havent seen manufactured now as much as they were in the 1970s. So yeah, grab any camera you want now and at far distances everything bends. Whats coincidental is that further than that, your eyes are not perfectly optically correct either...
All pro photographers know this, especially corporate photographers for architectural and large-scale engineering work, those pictures have to be corrected digitally because sufficient enough semi-fisheyeness uses less lenses and groups to manufacture. And when optical or digital Optical Correctives are applied, it straightens out objects at a further distance that the human eye had seen curved.
Our eyes are not a straight throughput stream, like a tube or something, its biological, spongy, and electrical. The back of the eye sees the world upside down, the left eye is received by the right brain and the right eye is received by the left brain, and the brain flips the input rightside up and combines them. Does that sound as simple as a camera lens to a CMOS plane?